EP3927168A1 - Manipulierte pestizidproteine und verfahren zur bekämpfung von pflanzenschädlingen - Google Patents
Manipulierte pestizidproteine und verfahren zur bekämpfung von pflanzenschädlingenInfo
- Publication number
- EP3927168A1 EP3927168A1 EP20759563.8A EP20759563A EP3927168A1 EP 3927168 A1 EP3927168 A1 EP 3927168A1 EP 20759563 A EP20759563 A EP 20759563A EP 3927168 A1 EP3927168 A1 EP 3927168A1
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- European Patent Office
- Prior art keywords
- plant
- protein
- cell
- amino acid
- polynucleotide
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N37/00—Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom having three bonds to hetero atoms with at the most two bonds to halogen, e.g. carboxylic acids
- A01N37/44—Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom having three bonds to hetero atoms with at the most two bonds to halogen, e.g. carboxylic acids containing at least one carboxylic group or a thio analogue, or a derivative thereof, and a nitrogen atom attached to the same carbon skeleton by a single or double bond, this nitrogen atom not being a member of a derivative or of a thio analogue of a carboxylic group, e.g. amino-carboxylic acids
- A01N37/46—N-acyl derivatives
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/195—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from bacteria
- C07K14/32—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from bacteria from Bacillus (G)
- C07K14/325—Bacillus thuringiensis crystal peptides, i.e. delta-endotoxins
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N63/00—Biocides, pest repellants or attractants, or plant growth regulators containing microorganisms, viruses, microbial fungi, animals or substances produced by, or obtained from, microorganisms, viruses, microbial fungi or animals, e.g. enzymes or fermentates
- A01N63/50—Isolated enzymes; Isolated proteins
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01P—BIOCIDAL, PEST REPELLANT, PEST ATTRACTANT OR PLANT GROWTH REGULATORY ACTIVITY OF CHEMICAL COMPOUNDS OR PREPARATIONS
- A01P7/00—Arthropodicides
- A01P7/04—Insecticides
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/82—Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
- C12N15/8241—Phenotypically and genetically modified plants via recombinant DNA technology
- C12N15/8261—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield
- C12N15/8271—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance
- C12N15/8279—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance
- C12N15/8286—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance for insect resistance
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/146—Genetically Modified [GMO] plants, e.g. transgenic plants
Definitions
- This invention relates to engineered pesticidal proteins and the nucleic acid molecules that encode them, as well as compositions and methods for controlling plant pests.
- Bacillus thuringiensis ( Bt ) is a gram-positive spore forming soil bacterium characterized by its ability to produce crystalline inclusions that are specifically toxic to certain orders and species of plant pests, including insects, but are harmless to plants and other non-target organisms. For this reason, compositions comprising Bacillus thuringiensis strains or their insecticidal proteins can be used as environmentally-acceptable insecticides to control agricultural insect pests or insect vectors of a variety of human or animal diseases.
- Crystal (Cry) proteins from Bacillus thuringiensis have potent insecticidal activity against
- the major classes were Lepidoptera-specific (I), Lepidoptera- and Diptera-specific (II), Coleoptera-specific (III), Diptera- specific (IV), and nematode-specific (V) and (VI).
- the proteins were further classified into subfamilies; more highly related proteins within each family were assigned divisional letters such as CrylA, CiylB, CrylC, etc. Even more closely related proteins within each division were given names such as CrylC(a), CrylC(b), etc.
- Cry toxins can still be separated into six major classes according to their insect host specificities and include: Group 1— lepidopteran (e.g., Cryl, Cry9 and Cryl5); group 2— lepidopteran and dipteran (e.g., Cry2); group 3— coleopteran (Cry3, Cry7 and Cr 8); group 4— dipteran (Ciy4, Cry 10, Cryl l, Cry 16, Cry 17, Cry 19 and Cry20); group 5— lepidopteran and coleopteran (Cry II); and group 6— nematodes (Ciy6).
- Cry 10 and Cryl 1 toxins are unique because they appear to be natural truncations of the larger Cryl and Cry4 proteins (130-140 kDa).
- Cry proteins are globular protein molecules which accumulate as protoxins in crystalline form during the sporulation stage of Bt. After ingestion by a pest, the ciystals are typically solubilized to release protoxins, which can range in size, for example, from 130-140 kDa for many of the lepidopteran-active Cry proteins, such as Cryl and Cry9, and 60-80 kDa for the coleopteran-active Cry3 proteins and the lepidopteran/dipteran-active Cry2 proteins.
- protoxins can range in size, for example, from 130-140 kDa for many of the lepidopteran-active Cry proteins, such as Cryl and Cry9, and 60-80 kDa for the coleopteran-active Cry3 proteins and the lepidopteran/dipteran-active Cry2 proteins.
- the released protoxins are processed by proteases in the insect gut, for example trypsin and chymotrypsin, to produce a protease-resistant core Cry protein toxin.
- proteases in the insect gut, for example trypsin and chymotrypsin
- This proteolytic processing involves the removal of amino acids from different regions of the various Cry protoxins.
- Cry protoxins that are 130-140 kDa are typically activated through the proteolytic removal of an N-terminal peptide of 25-30 amino acids and approximately half of the remaining protein from the C-terminus resulting in an approximately 60-70 kDa mature Cry toxin.
- the protoxins that are 60-80 kDa e.g.
- Cry2 and Cry3, are also processed but not to the same extent as the larger protoxins.
- the smaller protoxins typically have equal or more amino acids removed from the N-terminus than the larger protoxins but less amino acids removed from the C-terminus.
- proteolytic activation of Cty2 family members typically involves the removal of approximately 40-50 N-terminal amino acids.
- Many of the Cry proteins are quite toxic to specific target insects, but many have narrow spectrums of activity.
- the toxin portions of Cry proteins generally have five conserved sequence blocks, and three conserved structural domains (see, for example, de Maagd et al. (2001 ) Trends Genetics 17: 193-199).
- the first conserved structural domain, called Domain I typically consists of seven alpha helices and is involved in membrane insertion and pore formation.
- Domain II typically consists of three beta- sheets arranged in a Greek key configuration, and domain III typically consists of two antiparallel beta-sheets in‘jelly-roll’ formation (de Maagd et al., 2001, supra). Domains II and III are involved in receptor recognition and binding, and therefore are considered determinants of toxin specificity.
- conserved block 1 comprises approximately 29 amino acids
- conserved block 2 comprises approximately 67 amino acids
- conserved block 3 comprises approximately 48 amino acids
- conserved block 4 comprises approximately 10 amino acids
- conserved block 5 comprises approximately 5 amino acids
- Domain I of a Bt delta-endotoxin typically comprises variable region 1, conserved block 1, variable region 2, and the N-tenninal 52 amino acids of conserved block 2.
- Domain II typically comprises approximately the C-terminal 15 amino acids of conserved block 2, variable region 3, and approximately the N-terminal 10 amino acids of conserved block 3.
- Domain III typically comprises approximately the C-terminal 38 amino acids of conserved block 3, variable region 4, conserved block 4, variable region 5, and conserved block 5.
- the Cryl lepidopteran active toxins, among other delta-endotoxins, have a variable region 6 with approximately 1 -3 amino acids lying within domain III.
- plant pests including insect and nematode pests, causing substantial reductions in crop yield and quality.
- plant pests are a major factor in the loss of the world's important agricultural crops. About $8 billion are lost every year in the United States alone due to infestations of invertebrate pests including insects. Insect pests are also a burden to vegetable and fruit growers, to producers of ornamental flowers, and to home gardeners.
- Insect pests are mainly controlled by intensive applications of chemical pesticides, which are active through inhibition of insect growth, prevention of insect feeding or reproduction, or cause death.
- Biological pest control agents such as Bacillus thuringiensis strains expressing pesticidal toxins such as Cry proteins, have also been applied to crop plants with satisfactoiy results, offering an alternative or complement to chemical pesticides.
- the genes coding for some of these Cry proteins have been isolated and their expression in heterologous hosts such as transgenic plants have been shown to provide another tool for the control of economically important insect pests.
- the invention provides nucleic acids, polypeptides, compositions and methods for conferring pesticidal activity (e.g ., insecticidal activity) to bacteria, plants, plant cells, tissues and seeds.
- pesticidal activity e.g ., insecticidal activity
- the invention provides novel chimeric pesticidal proteins ⁇ e.g., chimeric insecticidal proteins), optionally with altered or enhanced activity as compared with the parent molecule.
- the chimeric proteins of the invention are toxic to economically important insect pests (e.g. , by inhibiting the ability of the insect pest to survive, grow and/or reproduce), particularly insect pests that infest plants.
- the chimeric insecticidal proteins of the invention can be used to control one or more economically important lepidopteran pests including without limitation black cutworm (Agrotis ipsilon), European com borer ( Ostrinia nubilalis), fall armyworm ( Spodoptera frugiperdd), com earworm ( Helicoverpa zed), sugarcane borer ( Diatraea saccharalis ), velvetbean caterpillar ( Anticarsia gemmatalis), soybean looper ( Chrysodeixis includes), southwest corn borer (Diatraea grandiosella), western bean cutworm (Richia albicosta), tobacco budworm (Heliothis virescens), Asian corn borer (Ostrinia fur
- the invention provides a chimeric insecticidal protein that is toxic to a lepidopteran insect pest comprising in an N-terminal to C-tenninal direction: (a) an N-terminal region of a first Cryl protein, which is optionally an N-terminal region of a BT-0002 protein of SEQ ID NO:2 or an amino acid sequence that is substantially identical thereto, fused to (b) a C-terminal region of a different Cryl protein; wherein a crossover position between the first Cryl protein and the different Cryl protein is located in conserved block 3.
- the different Cryl protein is a Cry IF (e.g., a Cryl Fa), or a Cry II (e.g., a Cryl la or a Cry 1 If, such as BT-0022) protein.
- a Cry IF e.g., a Cryl Fa
- a Cry II e.g., a Cryl la or a Cry 1 If, such as BT-0022
- the chimeric insecticidal protein according to the invention has insecticidal activity against a Spodoptera frugiperda insect pest or an insect pest population with resistance to a Vip3A protein and/or a CrylF protein.
- the invention provides a nucleotide sequence encoding the chimeric insecticidal proteins of the invention, and expression cassettes and vectors comprising the same.
- the polynucleotide is codon optimized for expression in a plant (e.g., a monocot plant such as maize or a dicot plant such as soybean).
- the invention provides a transgenic cell (e.g., a transgenic plant cell such as a dicot cell or monocot cell, or a transgenic bacterial cell), transgenic plant part, transgenic plant culture, and transgenic plant seed that comprises a nucleotide sequence, expression cassette, vector and/or chimeric insecticidal protein of the invention.
- a transgenic cell e.g., a transgenic plant cell such as a dicot cell or monocot cell, or a transgenic bacterial cell
- transgenic plant part e.g., a transgenic plant culture, and transgenic plant seed that comprises a nucleotide sequence, expression cassette, vector and/or chimeric insecticidal protein of the invention.
- the invention encompasses transgenic plants comprising a plant cell, plant part, nucleotide sequence, expression cassette, vector and/or chimeric insecticidal protein of the invention.
- harvested products derived from the transgenic plants of the invention wherein the harvested product optionally comprises a nucleotide sequence, expression cassette, vector and/or chimeric insecticidal protein of the invention.
- processed products derived from the harvested products of the invention wherein the harvested product optionally comprises a nucleotide sequence, expression cassette, vector and/or chimeric insecticidal protein of the invention.
- the harvested product or processed product comprises an chimeric insecticidal protein of the invention and has increased resistance to an insect pest (e.g., a lepidopteran insect pest).
- the invention provides an insecticidal composition comprising a chimeric insecticidal protein of the invention and an agriculturally acceptable carrier.
- the invention provides as an additional aspect a method of producing a transgenic plant with increased resistance to an insect pest (e.g, a lepidopteran insect pest).
- the method comprises introducing into a plant a polynucleotide, expression cassette, or vector of the invention, wherein the chimeric insecticidal protein is expressed in the plant, thereby producing a transgenic plant with increased resistance to an insect pest.
- the introducing step comprises: (i) transforming a plant cell with the polynucleotide, expression cassette or vector and regenerating a transgenic plant; or (ii) crossing a first plant comprising the polynucleotide, expression cassette or vector with a second plant.
- the method further comprises producing a seed from the transgenic plant. In embodiments, the method further comprises obtaining a progeny plant from the transgenic plant, wherein the progeny plant comprises the polynucleotide, the expression cassette or the vector, expresses the chimeric insecticidal protein and has increased resistance to an insect pest.
- the invention provides a method of producing a transgenic plant with increased resistance to an insect pest (e.g ., a lepidopteran insect pest), the method comprising: (a) planting a seed comprising a polynucleotide, expression cassette or vector of the invention; and (b) growing a transgenic plant from the seed, wherein the transgenic plant comprises the polynucleotide, expression cassette or vector and produces the chimeric insecticidal protein and has increased resistance to an insect pest.
- the method further comprises: (c) harvesting a seed from the transgenic plant of (b), wherein the harvested seed comprises the polynucleotide, expression cassette, vector and/or the chimeric insecticidal protein.
- the seed has increased resistance against an insect pest (e.g., a lepidopteran insect pest).
- the invention provides a m ethod of producing a seed.
- the method comprises: (a) providing a transgenic plant that comprises a
- the seed has increased resistance against an insect pest (e.g., a lepidopteran insect pest).
- an insect pest e.g., a lepidopteran insect pest
- the invention further contemplates a method of producing a hybrid plant seed.
- the method comprises: (a) crossing a first inbred plant, which is a transgenic plant comprising a polynucleotide, expression cassette or vector of the invention with a different inbred plant, which may or may not comprise a polynucleotide, expression cassette or vector of the invention; and (b) allowing a hybrid seed to form.
- the hybrid seed comprises a polynucleotide, expression cassette or vector and/or a chimeric insecticidal protein of the invention.
- the seed has increased resistance against an insect pest (e.g., a lepidopteran insect pest).
- the invention provides a method of controlling an insect pest (e.g., a
- lepidopteran insect pest such as fall armyworm
- the method comprising delivering to the insect pest or an environment thereof a composition comprising an effective amount of a chimeric insecticidal protein or insecticidal composition of the invention.
- the method is a method of controlling a lepidopteran insect pest (e.g., fall armyworm) that is resistant to a Vip3A protein and/or a Cry IF protein.
- the invention provides methods of reducing the development of resistance to a Vip3A protein and/or a CrylF protein in a population of a target lepidopteran insect pest (e.g, fall armyworm).
- the method comprises delivering to the target population or an environment thereof a transgenic plant comprising: (i) a polynucleotide, expression cassette, or vector according to the invention; and (ii) a polynucleotide comprising a nucleotide sequence encoding a Vip3A protein and/or a nucleotide sequence encoding a Cry IF protein; wherein the chimeric insecticidal protein and the Vip3A protein and/or the Cry IF protein are produced in the transgenic plant.
- the invention is also drawn to methods of using the polynucleotides of the invention, for
- nucleotide or amino acid sequences may be native or synthetic sequences that have been designed for expression in an organism such as a plant or bacteria.
- the invention is further drawn to methods of making the insecticidal proteins of the invention and to methods of using the polynucleotide sequences and insecticidal proteins, for example in microorganisms to control insects or in transgenic plants to confer protection from insect damage.
- compositions and fonnulations comprising the chimeric insecticidal proteins of the invention, and methods of using the compositions or fonnulations to control insect populations, for example by applying the compositions or formulations to insect-infested areas, or to prophylactically treat insect-susceptible areas or plants to confer protection against the insect pests.
- the compositions or formulations of the invention may, in addition to the chimeric insecticidal protein of the invention, comprise other pesticidal agents such as chemical pesticides, other pesticidal proteins, or dsR A, e.g., in order to augment or enhance the insect-controlling capability of the composition or formulation and/or for insect resistance management.
- compositions and methods of the invention are useful for controlling insect pests that attack plants, particularly crop plants.
- compositions of the invention are also useful for detecting the presence of a chimeric insecticidal protein or a nucleic acid encoding the same in commercial products or transgenic organisms.
- the invention also provides for uses of the chimeric insecticidal proteins, nucleic acids,
- transgenic plants, plant parts, seed and insecticidal compositions of the invention for example, to control an insect pest, such as a lepidopteran pest.
- the invention provides a method of using a polynucleotide, expression cassette, vector or host cell of the invention to produce an insecticidal composition for controlling an insect pest (e.g., a lepidopteran insect pest).
- an insect pest e.g., a lepidopteran insect pest.
- the invention provides a method of using a polynucleotide, expression cassette or vector of the invention to produce a transgenic seed, where the transgenic seed grows a transgenic plant with increased resistance to an insect pest.
- the invention also contemplates the use of a transgenic plant of the invention to produce a transgenic seed, which is optionally a hybrid seed.
- the invention provides a method of using a chimeric insecticidal protein
- polynucleotide, expression cassette, vector, transgenic plant or insecticidal composition of the invention to prevent the development of resistance in a population of a target lepidopteran insect pest to a Vip3A protein and/or Cry IF protein.
- Figures 1A and I B show an alignment of the amino acid sequences of full-length BT-0002 (SEQ ID NO: 2), BT-0022 (SEQ ID NO: 1) and CrylFa (SEQ ID NO: 3).
- the Domain III core and conserveed Block 3 (CB3) are indicated. Identical amino acids in the aligned sequences are shaded.
- Figures 2A and 2B show an alignment of the amino acid sequences of full-length BT-0002 (SEQ ID NO: 2) with exemplary BT-0002 chimeras: Bt2-Bt22 VI (SEQ ID NO: 4) and Bt2-lFa VI (SEQ ID NO: 12).
- the Domain III core and conserveed Block 3 (CB3) are indicated.
- the Domain III core indicated in the figure is derived from the second Cry protein. Identical amino acids in the aligned sequences are shaded.
- FIGS 3A, 3B and 3C show full-length Bt2-Bt22 chimeras aligned with each other: Bt2-Bt22 VI (SEQ ID NO:4 ) Bt2-Bt22 V2 (SEQ ID NO:5), Bt2-Bt22 V3 (SEQ ID NO:6), Bt2-Bt22 V4 (SEQ ID NO:7), Bt2-Bt22 V5 (SEQ ID NO:8), Bt2-Bt22 V6 (SEQ ID NO:9), Bt2-Bt22 V2ml (SEQ ID NO: 10) and Bt2-Bt22 V3ml (SEQ ID NO: 11).
- Bt2-Bt22 VI SEQ ID NO:4
- Bt2-Bt22 V2 SEQ ID NO:5
- Bt2-Bt22 V3 SEQ ID NO:6
- Bt2-Bt22 V2ml SEQ ID NO: 10
- Bt2-Bt22 V3ml SEQ ID NO: 11
- FIGS 4A, 4B and 4C show full-length Bt2-BtlFa chimeras aligned with each other: Bt2-lFa VI (SEQ ID NO: 12 ) Bt2-lFa V2 (SEQ ID NO:13), Bt2-lFa V3 (SEQ ID NO: 14), Bt2-lFa V4 (SEQ ID NO: 15 Bt2-lFa V5 (SEQ ID NO: 16), Bt2-lFa V6 (SEQ ID NO: 17) and Bt2- 1 Fa RLTL22 (SEQ ID NO: 18).
- Bt2-lFa VI SEQ ID NO: 12
- Bt2-lFa V2 SEQ ID NO:13
- Bt2-lFa V3 SEQ ID NO: 14
- Bt2-lFa V4 SEQ ID NO: 15 Bt2-lFa V5 (SEQ ID NO: 16)
- Bt2-lFa V6 SEQ ID NO: 17
- Bt2- 1 Fa RLTL22 SEQ
- SEQ ID NO: I is the amino acid sequence of a BT-0022 protein.
- SEQ ID NO:2 is the amino acid sequence of a BT-0002 protein.
- SEQ ID NO:3 is the amino acid sequence of a full-length CrylFa.
- SEQ ID NO:4 is the amino acid sequence of Bt2-Bt22 VI protein.
- the Bt22 sequence is amino acids: 468-597.
- SEQ ID NO:5 is the amino acid sequence of Bt2-Bt22 V2 protein.
- the Bt22 sequence is amino acids: 455-597.
- SEQ ID NO:6 is the amino acid sequence of Bt2-Bt22 V3 protein.
- the Bt22 sequence is amino acids: 449-597.
- SEQ ID NO:7 is the amino acid sequence of Bt2-Bt22 V4 protein.
- the Bt22 sequence is amino acids: 468-603.
- SEQ ID NO:8 is the amino acid sequence of Bt2-Bt22 V5 protein.
- the Bt22 sequence is amino acids: 455-603.
- SEQ ID NO:9 is the amino acid sequence of Bt2-Bt22 V6 protein.
- the Bt22 sequence is amino acids: 449-603.
- SEQ ID NO.TO is the amino acid sequence of Bt2-Bt22 V2m l protein.
- SEQ ID NO: 1 1 is the amino acid sequence of Bt2-Bt22 V3ml protein.
- SEQ ID NO: 12 is the amino acid sequence of Bt2-lFa VI protein.
- the lFa sequence is amino acids: 468-597.
- SEQ ID NO: 13 is the amino acid sequence of Bt2-lFa V2 protein.
- the lFa sequence is amino acids: 455-597.
- SEQ ID NO: 14 is the amino acid sequence of Bt2-lFa V3 protein.
- the lFa sequence is amino acids: 450-597.
- SEQ ID NO: 15 is the amino acid sequence of Bt2- 1 Fa V4 protein.
- the 1 Fa sequence is amino acids: 468-603.
- SEQ ID NO: 16 is the amino acid sequence of Bt2-1 Fa V5 protein.
- the lFa sequence is amino acids: 455-603.
- SEQ ID NO: 17 is the amino acid sequence of Bt2-lFa V6 protein.
- the lFa sequence is amino acids: 450-603.
- SEQ ID NO: 18 is the amino acid sequence of RLTL22 (Bt2-lFa) protein.
- SEQ ID NO: 19 is a nucleotide sequence encoding the Bt2-lFa chimera of SEQ ID NO: 18.
- SEQ ID NO:20 is a nucleotide sequence encoding the Bt2-Bt22 VI chimera of SEQ ID NO:4.
- SEQ ID NO:21 is a nucleotide sequence encoding the Bt2-Bt22 V2 chimera of SEQ ID NO:5.
- SEQ ID NO:22 is a nucleotide sequence encoding the Bt2-Bt22 V3 chimera of SEQ ID NO:6.
- SEQ ID NO:23 is a nucleotide sequence encoding the Bt2-Bt22 V4 chimera of SEQ ID NO:7.
- SEQ ID NO:24 is a nucleotide sequence encoding the Bt2-Bt22 V5 chimera of SEQ ID NO:8.
- SEQ ID NO:25 is a nucleotide sequence encoding the Bt2-Bt22 V6 chimera of SEQ ID NO:9.
- SEQ ID NO:26 is a nucleotide sequence encoding the Bt2-Bt22 V2ml chimera of SEQ ID NO:26
- SEQ ID NO:27 is a nucleotide sequence encoding the Bt2-Bt22 V3ml chimera of SEQ ID NO:27
- SEQ ID NO:28 is a nucleotide sequence encoding the Bt2- 1 Fa VI chimera of SEQ ID NO: 12.
- SEQ ID NO:29 is a nucleotide sequence encoding the Bt2-lFa V2 chimera of SEQ ID NO: 13.
- SEQ ID NO:30 is a nucleotide sequence encoding the Bt2-lFa V3 chimera of SEQ ID NO: 14.
- SEQ ID NO:31 is a nucleotide sequence encoding the Bt2-lFa V4 chimera of SEQ ID NO: 15.
- SEQ ID NO:32 is a nucleotide sequence encoding the Bt2-lFa V5 chimera of SEQ ID NO: 16.
- SEQ ID NO:33 is a nucleotide sequence encoding the Bt2-lFa V6 chimera of SEQ ID NO: 17.
- SEQ ID NO:34 is an amino acid sequence of a BT2-BT2-CrylFa-BT29 full-length engineered Cry protein.
- SEQ ID NO:35 is an amino acid sequence of a BT2-BT2-BT22-BT29 full-length engineered Cry protein.
- Nucleotide sequences provided herein are presented in the 5 to 3’ direction, from left to right and are presented using the standard code for representing nucleotide bases as set forth in 37 CFR ⁇ 1.821 - 1.825 and the World Intellectual Property Organization (WIPO) Standard ST.25, for example: adenine (A), cytosine (C), thymine (T), and guanine (G).
- WIPO World Intellectual Property Organization
- Amino acids are likewise indicated using the WIPO Standard ST.25, for example: alanine (Ala;
- phrases such as “between about X and Y” mean “between about X and about Y” and phrases such as “from about X to Y” mean “from about X to about Y.”
- phrases such as “from X to Y” should be interpreted to include X and Y, unless the context indicates otherwise.
- activity of an insecticidal protein of the invention is meant that the insecticidal protein functions as an orally active insect control agent, has a toxic effect, for example, by inhibiting the ability of the insect pest to survive, grow, and/or reproduce ( e.g ., causing morbidity and/or mortality) and/or is able to disrupt and/or deter insect feeding, which may or may not cause death of the insect.
- a toxic effect for example, by inhibiting the ability of the insect pest to survive, grow, and/or reproduce ( e.g ., causing morbidity and/or mortality) and/or is able to disrupt and/or deter insect feeding, which may or may not cause death of the insect.
- the result is typically morbidity and/or mortality of the insect and/or the insect reduces or stops feeding upon the source that makes the insecticidal protein available to the insect.
- a "chimeric" protein is a protein created by fusing all or a portion of at least two different proteins.
- the chimeric protein is a chimeric Cry protein comprising all or a portion of two different Cry proteins fused together into a single polypeptide.
- A“chimeric insecticidal protein” is a chimeric protein that has insecticidal activity (as described herein).
- a "coding sequence” is a nucleic acid sequence that is transcribed into RNA such as mRNA, rRNA, tRNA, snRNA, sense RNA or antisense RNA. In embodiments, the RNA is then translated to produce a protein.
- a“codon optimized” nucleotide sequence means a nucleotide sequence of a recombinant, transgenic, or synthetic polynucleotide wherein the codons are chosen to reflect the particular codon bias that a host cell or organism may have. This is typically done in such a way so as to preserve the amino acid sequence of the polypeptide encoded by the codon optimized nucleotide sequence.
- a nucleotide sequence is codon optimized for the cell (e.g., an animal, plant, fungal or bacterial cell) in which the construct is to be expressed.
- a construct to be expressed in a plant cell can have all or parts of its sequence codon optimized for expression in a plant. See, for example, U.S. Pat. No. 6,121 ,014.
- the codons are chosen to reflect the particular codon bias that a host cell or organism may have. This is typically done in such a way so as to preserve the amino acid sequence of the polypeptide encoded by the codon optimized nucle
- polynucleotides of the invention are codon-optimized for expression in a plant cell (e.g., a dicot cell or a monocot cell) or bacterial cell.
- To "control" an insect pest means to inhibit, through a toxic effect, the ability of the insect pest to survive, grow, feed and/or reproduce and/or to limit insect-related damage or loss in a crop plant caused by the insect pest and/or to protect the yield potential of a crop caused by the pest when grown in the presence of an insect pest.
- To "control” an insect pest may or may not mean killing the insect, although in embodiments of the invention,“control” of the insect means killing the insect.
- transitional phrase“consisting essentially of’ (and grammatical variants) means that the scope of a claim is to be interpreted to encompass the specified materials or steps recited in the claim“and those that do not materially alter the basic and novel characteristic(s)” of the claimed invention.
- the term“consisting essentially of’ when used in a claim of this invention is not intended to be interpreted to be equivalent to“comprising.”
- “corresponding to” or“corresponds to” means that when the amino acid sequences of modified or homolog proteins are aligned with each other, the amino acids that“correspond to” certain enumerated positions in the modified or homolog protein are those that align with these positions in a reference protein, but are not necessarily in the same exact numerical positions relative to the particular reference amino acid sequence of the invention.
- SEQ ID NO: 2 (BT-0002) is the reference sequence and is aligned with SEQ ID NO 1 (BT-0022) as in Figure 1, the sequence TLEAVT immediately following Domain III in SEQ ID NO: 1 (BT-0022) “corresponds” to the sequence TFEAES immediately following Domain III of SEQ ID NO: 2 (BT- 0002).
- the term“Cry protein” means an insecticidal protein of a Bacillus thuringiensis crystal delta-endotoxin type.
- the term“Cry protein” can refer to the protoxin form or any
- insecticidally active fragment or toxin thereof including partially processed and the mature toxin form (e.g., without the N-terminal peptidyl fragment and/or the C-terminal protoxin tail).
- insecticidal protein means that the composition or insecticidal protein comes in contact with an insect, which facilitates the oral ingestion of the composition or insecticidal protein, resulting in a toxic effect and control of the insect.
- the composition or insecticidal protein can be delivered in many recognized ways, including but not limited to, by transgenic plant expression, a formulated protein composition(s), a sprayable protein composition(s), a bait matrix, or any other art-recognized protein delivery system.
- domain refers to a set of amino acids conserved at specific positions along an
- amino acids at other positions can vary between homologues, amino acids that are highly conserved at specific positions indicate amino acids that are likely essential in the structure, stability or function of a protein. Identified by their high degree of conservation in aligned sequences of a family of protein homologues, they can be used as identifiers to determine if any polypeptide in question belongs to a previously identified polypeptide group.
- Effective insect-controlling amount means that concentration of an insecticidal protein that inhibits, through a toxic effect, the ability of an insect to survive, grow, feed and/or reproduce and/or that limits insect-related damage or loss in a crop plant.
- An“effective insect-controlling amount” may or may not mean killing the insect, although in embodiments it indicates killing the insect.
- pression cassette as used herein means a nucleic acid molecule capable of directing
- an “expression cassette” also typically comprises additional polynucleotides to facilitate proper translation of the polynucleotide of interest.
- the expression cassette may also comprise other polynucleotides not related to the expression of a polynucleotide of interest but which are present due to convenient restriction sites for removal of the cassette from an expression vector.
- At least one of the components in the expression cassette may be heterologous (i.e., foreign) with respect to at least one of the other components (e.g. , a heterologous promoter operatively associated with a polynucleotide of interest).
- the expression cassette may also be one that is naturally occurring but has been obtained in a recombinant form useful for heterologous expression.
- the expression cassette is heterologous with respect to the host, i.e., the expression cassette (or even the polynucleotide of interest) does not occur naturally in the host cell and has been introduced into the host cell or an ancestor cell thereof by a transformation process or a breeding process.
- the expression of the polynucleotide(s) of interest in the expression cassette is generally under the control of a promoter.
- the promoter can also be specific or preferential to a particular tissue, or organ, or stage of development (as described in more detail herein).
- An expression cassette, or fragment thereof, can also be referred to as "inserted polynucleotide” or “insertion polynucleotide” when transformed into a plant.
- a "gene” is defined herein as a hereditary unit comprising one or more polynucleotides that occupies a specific location on a chromosome or plasmid and that contains the genetic instruction for a particular characteristic or trait in an organism.
- a“gut protease” refers to a protease naturally found in the digestive tract of an insect. This protease is usually involved in the digestion of ingested proteins.
- gut proteases include trypsin, which typically cleaves peptides on the C-terminal side of lysine (K) or arginine (R) residues, and chymotiypsin, which typically cleaves peptides on the C-terminal side of phenylalanine (F), tryptophan (W) or tyrosine (Y).
- heterologous means foreign, exogenous, non-native and/or non- naturally occurring.
- a“heterologous” polynucleotide or polypeptide is a polynucleotide or polypeptide that is not naturally associated with a host cell into which it is introduced, including non-naturally occurring multiple copies of a naturally occurring nucleotide sequence or polypeptide.
- a nucleotide sequence is heterologous to another sequence with which it is operatively associated, e.g., a promoter may be heterologous (i.e., foreign) to an operatively associated coding sequence.
- homologous means native.
- a homologous nucleotide sequence or amino acid sequence is a nucleotide sequence or amino acid sequence naturally associated with a host cell into which it is introduced
- a homologous promoter sequence is the promoter sequence that is naturally associated with a coding sequence, and the like.
- “enhancement” (and grammatical variations thereof) and similar terms, as used herein, describe an elevation in the control of a plant pest, e.g., by contacting a plant with a polypeptide of the invention (such as, for example, by transgenic expression or by topical application methods). This increase in control can be in reference to the level of control of the plant pest in the absence of the polypeptide of the invention (e.g., a plant that is not transgenically expressing the polypeptide or is not topically treated with the polypeptide).
- the terms“increase,”“increasing,”“increased,” “enhance,”“enhanced,”“enhancing,” and“enhancement” can indicate an elevation of at least about 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 100%, 125%, 150%, 200%, 300%, 400%, 500% or more as compared to a suitable control (e.g, a plant, plant part, plant cell that is not contacted with a polypeptide of the invention).
- a suitable control e.g, a plant, plant part, plant cell that is not contacted with a polypeptide of the invention.
- Insecticidal as used herein is defined as a toxic biological activity capable of controlling an insect pest, optionally but preferably by killing them.
- a nucleic acid sequence is "isocoding" with a reference nucleic acid sequence when the nucleic acid sequence encodes a polypeptide having the same amino acid sequence as the polypeptide encoded by the reference nucleic acid sequence.
- nucleic acids molecules, polynucleotides or proteins of the invention are“isolated.”
- An "isolated” nucleic acid molecule, polynucleotide or protein, and the like is a nucleic acid molecule, polynucleotide or protein, and the like that no longer exists in its natural environment.
- An isolated nucleic acid molecule, polynucleotide or protein of the invention may exist in a purified form or may exist in a recombinant host such as in a transgenic bacteria or a transgenic plant.
- an isolated nucleic acid molecule, nucleotide sequence or polypeptide exists in a purified form that is at least partially separated from at least some of the other components of the naturally occurring organism or virus, for example, the cell or viral structural components or other polypeptides or nucleic acids commonly found associated with the polynucleotide.
- an“isolated” nucleic acid molecule, nucleotide sequence or polypeptide may exist in a non-native environment such as, for example, a recombinant host cell.
- the term“isolated” can mean that the nucleotide sequence is separated from the chromosome and/or cell in which it naturally occurs.
- a polynucleotide is also isolated if it is separated from the chromosome and/or cell in which it naturally occurs in and is then inserted into a genetic context, a chromosome and/or a cell in which it does not naturally occur (e.g., a different host cell, different regulatory sequences, and/or different position in the genome than as found in nature). Accordingly, recombinant nucleic acid molecules, nucleotide sequences and their encoded polypeptides are“isolated” in that, by the hand of man, they exist apart from their native environment and therefore are not products of nature, however, in some embodiments, they can be introduced into and exist in a recombinant host cell.
- the isolated nucleic acid molecule, the isolated nucleotide sequence and/or the isolated polypeptide is at least about 1%, 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, or more pure.
- motif' or "consensus sequence” or “signature” refers to a short conserved region in the sequence of evolutionarily related proteins. Motifs are frequently highly conserved parts of domains, but may also include only part of the domain, or be located outside of conserved domain (if all of the amino acids of the motif fall outside of a defined domain).
- A“native” or“wild type” nucleic acid, nucleotide sequence, polypeptide or amino acid sequence refers to a naturally occurring or endogenous nucleic acid, nucleotide sequence, polypeptide or amino acid sequence.
- a“wild type mRNA” is an mRNA that is naturally occurring in or endogenous to the organism.
- nucleic acid “nucleic acid molecule,”“nucleotide sequence,”“oligonucleotide” and “polynucleotide” are used interchangeably herein, unless the context indicates otherwise, and refer to a heteropolymer of nucleotides.
- DNA and RNA molecules including cDNA, genomic DNA, synthetic (e.g., chemically synthesized) DNA and RNA, plasmid DNA, mRNA, anti-sense RNA, and RNA/DNA hybrids, any of which can be linear or branched, single stranded or double stranded, or a combination thereof.
- dsRNA When dsRNA is produced synthetically, less common bases, such as inosine, 5-methylcytosine, 6-methyladenine, hypoxanthine and others can also be used for antisense, dsRNA, and ribozyme pairing.
- inosine 5-methylcytosine
- 6-methyladenine 6-methyladenine
- hypoxanthine and others
- polynucleotides that contain C-5 propyne analogues of uridine and cytidine have been shown to bind RNA with high affinity and to be potent antisense inhibitors of gene expression.
- Other modifications, such as modification to the phosphodiester backbone, or the 2'-hydroxy in the ribose sugar group of the RNA can also be made.
- the“nucleic acid,”“nucleic acid molecule,”
- nucleotide sequence refers to DNA.
- operably linked refers to nucleotide sequences on a single nucleic acid molecule that are functionally associated.
- a first nucleotide sequence that is operably linked to a second nucleotide sequence means a situation when the first nucleotide sequence is placed in a functional relationship with the second nucleotide sequence.
- a promoter is operably associated with a nucleotide sequence if the promoter effects the transcription or expression of said nucleotide sequence.
- control sequences ⁇ e.g, promoter
- the control sequences need not be contiguous with the nucleotide sequence to which it is operably associated, as long as the control sequences function to direct the expression thereof.
- intervening untranslated, yet transcribed, sequences can be present between a promoter and a nucleotide sequence, and the promoter can still be considered“operably linked” to or“operatively associated” with the nucleotide sequence.
- a "plant” as used herein, refers to any plant at any stage of development.
- Any plant (or groupings of plants, for example, into a genus or higher order classification) can be employed in practicing the present invention including angiosperms or gymnosperms, monocots or dicots.
- Exemplary plants include, but are not limited to com (Zea mays), canola ( Brassica napus,
- Brassica rapa ssp. alfalfa (Medicago saliva), rice ( Oryza sativa, including without limitation Indica and/or Japonica varieties), rape ⁇ Brassica napus), rye ( Secale cereale), sorghum ⁇ Sorghum bicolor, Sorghum vulgare), sunflower ⁇ Helianthus annus), wheat ⁇ Triticum aestivum), soybean ⁇ Glycine max), tobacco ⁇ Nicotiana tobacum), potato ⁇ Solanum tuberosum), peanut ⁇ Arachis hypogaea), cotton ⁇ Gossypium hirsutum), sweet potato ⁇ Ipomoea batatus), cassava ⁇ Manihot esculenta), coffee ⁇ Cofea spp.), coconut ⁇ Cocos nucifera), pineapple ⁇ Ananas comosus), citrus trees ⁇ Citrus spp.), cocoa ⁇ Theobroma cacao), tea ⁇ Camellia
- Vegetables include without limitation Solanaceous species (e.g., tomatoes; Lycopersicon
- lettuce e.g., Lactuca sativa
- carrots Caucus carota
- cauliflower Brassica oleracea
- celery Apium graveolens
- eggplant Solanum melongena
- asparagus Asparagus officinalis
- ochra Abelmoschus esculentus
- green beans Phaseolus vulgaris
- lima beans Phaseolus limensis
- peas Lathyrus spp.
- members of the genus Cucurbita such as hubbard squash (C. hubbard), butternut squash (C. moschata), zucchini (C. pepo), crookneck squash (C. crookneck), C.
- argyrosperma members of the genus Cucumis such as cucumber (Cucumis sativus), cantaloupe (C. cantalupensis), and musk melon (C. melo).
- Ornamentals include without limitation azalea (Rhododendron spp.), hydrangea (Macrophylla hydrangea), hibiscus (Hibiscus rosasanensis), roses (Rosa spp.), tulips (Tulipa spp.), daffodils (Narcissus spp.), petunias (Petunia hybrida), carnation (Dianthus caryophyllus), poinsettia
- Conifers which may be employed in practicing the present invention, include, for example, pines such as loblolly pine (Pinus taeda), slash pine (Pinus elliotii), ponderosa pine (Pinus ponderosa), lodgepole pine (Pinus contorted), and Monterey pine (Pinus radiata); Douglas-fir (Pseudotsuga menziesii), ⁇ Western hemlock (Tsuga canadensis),- Sitka spruce (Picea glauca); redwood (Sequoia sempervirens ); true firs such as silver fir (Abies amabilis) and balsam fir (Abies balsamea); and cedars such as Western red cedar (Thuja plicata) and Alaska yellow-cedar (Chamaecyparis nootkatensis).
- pines such as loblolly pine (Pinus taeda), slash
- Turfgrass include but are not limited to zoysia grasses, bentgrasses, fescue grasses, bluegrasses, St. Augustine grasses, Bermuda grasses, buffalograsses, ryegrasses, and orchardgrasses.
- plants that serve primarily as laboratory models, e.g., Arabidopsis.
- a "plant cell” is a structural and physiological unit of a plant, comprising a protoplast and a cell wall.
- the plant cell may be in the fonn of an isolated single cell or a cultured cell, or as a part of a higher organized unit such as, for example, plant tissue, a plant organ, or a whole plant.
- a "plant cell culture” means a culture of plant units such as, for example, protoplasts, cell culture cells, cells in plant tissues, pollen, pollen tubes, ovules, embryo sacs, zygotes and embiyos at various stages of development.
- Plant material refers to leaves, stems, roots, flowers or flower parts, fruits, pollen, egg cells, zygotes, seeds, cuttings, cell or tissue cultures, or any other part or product of a plant.
- a "plant organ” is a distinct and visibly structured and differentiated part of a plant such as a root, stem, leaf, flower bud, or embiyo.
- plant part includes but is not limited to embiyos, pollen, ovules, seeds, leaves, flowers, branches, fruit, stalks, roots, root tips, anthers, and/ or plant cells including plant cells that are intact in plants and/or parts of plants, plant protoplasts, plant tissues, plant cell tissue cultures, plant calli, plant clumps, and the like.
- Plant tissue as used herein means a group of plant cells organized into a structural and
- tissue of a plant in planta or in culture is included. This term includes, but is not limited to, whole plants, plant organs, plant seeds, tissue culture and any groups of plant cells organized into structural or functional units. The use of this term in conjunction with, or in the absence of, any specific type of plant tissue as listed above or otherwise embraced by this definition is not intended to be exclusive of any other type of plant tissue.
- a "polynucleotide of interest” refers to any polynucleotide which, when transferred to an
- organism e.g., a plant
- confers upon the organism a desired characteristic such as insect resistance, disease resistance, herbicide tolerance, antibiotic resistance, improved nutritional value, improved performance in an industrial process, production of a commercially valuable enzyme or metabolite, an altered reproductive capability, and the like.
- A“portion” or“fragment” of a polypeptide of the invention will be understood to mean an amino acid sequence of reduced length relative to a reference amino acid sequence of a polypeptide of the invention. Such a portion or fragment according to the invention may be, where appropriate, included in a larger polypeptide of which it is a constituent (e.g., a tagged or fusion protein).
- the“portion” or“fragment” substantially retains insecticidal activity (e.g., at least 40%, 50%, 60%, 70%, 80%, 85%, 90%, 95% or even 100% of the activity of the full-length protein, or has even greater insecticidal activity than the full-length protein).
- promoter refers to a polynucleotide, typically upstream (5') of a coding polynucleotide, which controls the expression of the coding polynucleotide by providing the recognition for RNA polymerase and other transcriptional machinery.
- a "recombinant nucleic acid molecule” (and similar terms) is a nucleic acid molecule comprising a combination of polynucleotides that would not naturally occur together and is the result of human intervention, e.g., a nucleic acid molecule that is comprised of a combination of at least two polynucleotides heterologous to each other, or a nucleic acid molecule that is artificially synthesized and comprises a polynucleotide that deviates from the polynucleotide that would normally exist in nature, or a nucleic acid molecule that comprises a transgene artificially incorporated into a host cell's genomic DNA and the associated flanking DNA of the host cell's genome.
- a“recombinant” protein is a protein that does not normally exist in nature or is present in a non-naturally occurring context, and is expressed from a recombinant nucleic acid molecule.
- a "recombinant plant” is a plant that would not normally exist in nature, is the result of human intervention, and contains a recombinant polynucleotide (e.g., a transgene or heterologous nucleic acid molecule incorporated into its genome). As a result of such genomic alteration, the recombinant plant is distinctly different from the related wild-type plant.
- a recombinant polynucleotide e.g., a transgene or heterologous nucleic acid molecule incorporated into its genome.
- grammatical variations thereof refer to a decrease in the survival, growth and/or reproduction of a plant pest, e.g., by contacting a plant with a polypeptide of the invention (such as, for example, by transgenic expression or by topical application methods).
- This decrease in survival, growth and/or reproduction can be in reference to the level observed in the absence of the polypeptide of the invention (e.g., a plant that is not transgenically expressing the polypeptide or is not topically treated with the polypeptide).
- the tenns “reduce,”“reduced,”“reducing,”“reduction,”“diminish,” and“suppress” mean a decrease of at least about 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or more as compared with a plant that is not contacted with a polypeptide of the invention (e.g., a plant that is not transgenically expressing the polypeptide or is not topically treated with the polypeptide).
- the reduction results in no or essentially no (i.e., an insignificant amount, e.g., less than about 10%, less than about 5% or even less than about 1%) detectable survival, growth and/or reproduction of the plant pest.
- A“regulatory element” refers to a nucleotide sequence involved in controlling the expression of a polynucleotide.
- regulatory elements include promoters, termination signals, and nucleotide sequences that facilitate proper translation of a polynucleotide.
- “selectable marker” means a nucleotide sequence that when expressed imparts a distinct phenotype to the plant, plant part and/or plant cell expressing the marker and thus allows such transformed plants, plant parts and/or plant cells to be distinguished from those that do not have the marker.
- Such a nucleotide sequence may encode either a selectable or screenable marker, depending on whether the marker confers a trait that can be selected for by chemical means, such as by using a selective agent (e.g., an antibiotic, herbicide, or the like), or on whether the marker is simply a trait that one can identify through observation or testing, such as by screening (e.g., the R-locus trait).
- “specific activity” refers to the amount of protein required to have an insecticidal effect. Therefore, when a first protein has a higher specific activity than a second protein means that it takes a lesser amount of the first protein compared the second protein to have an insecticidal effect on the same percentage of insects.
- sequences refers to two or more sequences or subsequences that have at least about 50% nucleotide or amino acid residue identity when compared and aligned for maximum correspondence as measured using one of the following sequence comparison algorithms or by visual inspection.
- substantially identical sequences have at least about 60%, 65%, 70%, 75%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or more nucleotide or amino acid residue identity.
- substantial identity exists over a region of the sequences that is at least about 50 residues, 100 residues, 150 residues, 200 residues, 250 residues, 300 residues, 350 residues, 400 residues or more in length.
- the sequences are substantially identical when they are identical over the entire length of the coding regions.
- “Identity” or“percent identity” refers to the degree of identity between two nucleic acid or amino acid sequences.
- sequence comparison typically one sequence acts as a reference sequence to which test sequences are compared.
- test and reference sequences are input into a computer, subsequence coordinates are designated if necessary, and sequence algorithm program parameters are designated.
- sequence comparison algorithm then calculates the percent sequence identity for the test sequence(s) relative to the reference sequence, based on the designated program parameters.
- sequence comparison typically one sequence acts as a reference sequence to which test sequences are compared.
- test and reference sequences are input into a computer, subsequence coordinates are designated if necessary, and sequence algorithm program parameters are designated.
- sequence comparison algorithm then calculates the percent sequence identity for the test sequence(s) relative to the reference sequence, based on the designated program parameters.
- Optimal alignment of sequences for comparison can be conducted, e.g. , by the local homology algorithm of Smith & Waterman, Adv. Appl. Math. 2: 482 (1981), by the homology alignment algorithm of Needleman & Wunsch, J Mol Biol. 48: 443 (1970), by the search for similarity method of Pearson & Lipman, Proc. Nat'l. Acad. Sci. USA 85: 2444 (1988), by computerized
- sequence similarity is the BLAST algorithm, which is described in Altschul et al, J. Mol. Biol. 215: 403-410 (1990).
- Software for performing BLAST analyses is publicly available through the National Center for Biotechnology Information (http://www.ncbi.nlm.nih.gov/).
- HSPs high scoring sequence pairs
- T is referred to as the neighborhood word score threshold (Altschul et al. , 1990).
- These initial neighborhood word hits act as seeds for initiating searches to find longer FISPs containing them.
- the word hits are then extended in both directions along each sequence for as far as the cumulative alignment score can be increased. Cumulative scores are calculated using, for nucleotide sequences, the parameters M (reward score for a pair of matching residues; always > 0) and (penalty score for mismatching residues; always ⁇ 0). For amino acid sequences, a scoring matrix is used to calculate the cumulative score. Extension of the word hits in each direction are halted when the cumulative alignment score falls off by the quantity X from its maximum achieved value, the cumulative score goes to zero or below due to the
- the BLAST algorithm parameters W, T, and X determine the sensitivity and speed of the alignment.
- the BLASTP program uses as defaults a wordlength (W) of 3, an expectation (E) of 10, and the BLOSUM62 scoring matrix (see Henikoff & Henikoff, Proc. Natl. Acad. Sci. USA 89: 10915 (1989)).
- the BLAST algorithm In addition to calculating percent sequence identity, the BLAST algorithm also performs a
- test nucleic acid sequence is considered similar to a reference sequence if the smallest sum probability in a comparison of the test nucleic acid sequence to the reference nucleic acid sequence is less than about 0.1, more preferably less than about 0.01, and most preferably less than about 0.001.
- Another widely used and accepted computer program for performing sequence alignments is CLUSTALW vl .6 (Thompson, et al. Nuc. Acids Res., 22: 4673-4680, 1994).
- the number of matching bases or amino acids is divided by the total number of bases or amino acids, and multiplied by 100 to obtain a percent identity. For example, if two 580 base pair sequences had 145 matched bases, they would be 25 percent identical.
- the number of matches is divided by the shorter of the two lengths. For example, if there were 100 matched amino acids between a 200 and a 400 amino acid proteins, they are 50 percent identical with respect to the shorter sequence. If the shorter sequence is less than 150 bases or 50 amino acids in length, the number of matches are divided by 150 (for nucleic acid bases) or 50 (for amino acids), and multiplied by 100 to obtain a percent identity.
- Two nucleotide sequences can also be considered to be substantially identical when the two sequences hybridize to each other under stringent conditions.
- two nucleotide sequences considered to be substantially identical hybridize to each other under highly stringent conditions.
- stringent conditions include reference to conditions under which a nucleic acid will selectively hybridize to a target sequence to a detectably greater degree than other sequences (e.g., at least 2-fold over a non-target sequence), and optionally may substantially exclude binding to non-target sequences.
- Stringent conditions are sequence- dependent and will vaiy under different circumstances. By controlling the stringency of the hybridization and/or washing conditions, target sequences can be identified that can be up to 100% complementary to the reference nucleotide sequence. Alternatively, conditions of moderate or even low stringency can be used to allow some mismatching in sequences so that lower degrees of sequence similarity are detected.
- primers or probes can be used under conditions of high, moderate or even low stringency.
- conditions of low or moderate stringency can be advantageous to detect homolog, ortholog and/or paralog sequences having lower degrees of sequence identity than would be identified under highly stringent conditions.
- complementary or “complementarity” (and similar terms), as used herein, refer to the natural binding of polynucleotides under permissive salt and temperature conditions by base-pairing.
- sequence "A-G-T” binds to the complementary sequence "T-C-A.”
- Complementarity between two single-stranded molecules may be partial, in which only some of the nucleotides bind, or it may be complete when total complementarity exists between the single stranded molecules.
- the degree of complementarity between nucleic acid strands has significant effects on the efficiency and strength of hybridization between the molecules.
- substantially complementary means that two nucleic acid sequences are at least about 50%, 60%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or more
- nucleic acid sequences can hybridize together under high stringency conditions (as described herein).
- a complex mixture e.g., total cellular DNA or RNA
- Specifically or selectively hybridizing sequences typically are at least about 40% complementary and are optionally substantially complementary or even completely complementary ( i.e ., 100% identical).
- T m 81.5°C+16.6 (log M)+0.41 (% GC)-0.61 (% formamide)- 500/L; where M is the molarity of monovalent cations, % GC is the percentage of guanosine and cytosine nucleotides in the DNA, % formamide is the percentage of formamide in the hybridization solution, and L is the length of the hybrid in base pairs.
- the T m is the temperature (under defined ionic strength and pH) at which 50% of a complementary target sequence hybridizes to a perfectly matched probe.
- T m is reduced by about 1 ° C for each 1% of mismatching; thus, T m , hybridization and/or wash conditions can be adjusted to hybridize to sequences of the desired degree of identity. For example, if sequences with >90% identity are sought, the T m can be decreased 10°C. Generally, stringent conditions are selected to be about 5°C lower than the thermal melting point (T m ) for the specific sequence and its complement at a defined ionic strength and pH.
- highly stringent conditions can utilize a hybridization and/or wash at the thermal melting point (T m ) or 1, 2, 3 or 4°C lower than the thennal melting point (T m ); moderately stringent conditions can utilize a hybridization and/or wash at 6, 7, 8, 9 or 10°C lower than the thermal melting point (T,UNI); low stringency conditions can utilize a hybridization and/or wash at 1 1, 12, 13, 14, 15 or 20 ° C lower than the thermal melting point (T m ). If the desired degree of mismatching results in a T m of less than 45 °C (aqueous solution) or 32 ° C (formamide solution), optionally the SSC concentration can be increased so that a higher temperature can be used.
- stringent conditions are those in which the salt concentration is less than about 1.5 M Na ion, typically about 0.01 to 1.0 M Na ion concentration (or other salts) at about pH 7.0 to pH 8.3 and the temperature is at least about 30”C for short probes (e.g., 10 to 50 nucleotides) and at least about 60 ° C for longer probes (e.g., greater than 50 nucleotides).
- Stringent conditions may also be achieved with the addition of destabilizing agents such as formamide or Denhardt's (5 g Ficoll, 5 g polyvinylpyrrolidone, 5 g bovine serum albumin in 500 ml of water).
- Exemplary low stringency conditions include hybridization with a buffer solution of 30% to 35% formamide, 1 M NaCl, 1%
- Exemplary moderate stringency conditions include hybridization in 40% to 45% formamide, 1 M NaCl, 1% SDS at 37 ° C and a wash in 0.5X to IX SSC at 55°C to 60°C.
- Exemplary high stringency conditions include hybridization in 50% formamide, 1 M NaCl, 1% SDS at 37°C and a wash in 0.1X SSC at 60 ° C to 65 ° C.
- a further non-limiting example of high stringency conditions include hybridization in 4X SSC, 5X Denhardt's, 0.1 mg/ml boiled salmon sperm DNA, and 25 mM Na phosphate at 65 ° C and a wash in 0.1X SSC, 0.1% SDS at 65°C.
- specificity is typically a function of post-hybridization washes, the relevant factors being the ionic strength and temperature of the final wash solution.
- Nucleic acids that do not hybridize to each other under stringent conditions are still substantially identical if the proteins that they encode are substantially identical (e. g. , due to the degeneracy of the genetic code).
- a further indication that two nucleic acids or proteins are substantially identical is that the protein encoded by the first nucleic acid is immunologically cross reactive with the protein encoded by the second nucleic acid.
- a protein is typically substantially identical to a second protein, for example, where the two proteins differ only by conservative substitutions.
- modified polypeptide or fragment “and the like)“substantially retains” insecticidal activity, it is meant that the modified polypeptide or fragment retains at least about 40%, 50%, 60%, 70%, 80%, 85%, 90%, 95% or even 100% of the insecticidal activity of the reference protein, or has even greater insecticidal activity.
- Synthetic refers to a nucleotide sequence comprising bases or a structural feature(s) that is not present in the natural sequence.
- an artificial sequence encoding a protein of the invention that resembles more closely the G+C content and the normal codon distribution of dicot or monocot plant genes is said to be synthetic.
- a protein that is“toxic” to an insect pest is an orally-active insect control agent that kills the insect pest, causes a reduction in growth and/or reproduction of the insect pest and/or is able to disrupt or deter insect feeding, the latter two of which may or may not cause death of the insect.
- a protein of the invention is delivered to an insect or an insect comes into contact with the protein, the result is typically death of the insect, the insect’s growth and/or reproduction is slowed and/or the insect reduces or stops feeding upon the source that makes the toxic protein available to the insect.
- the terms“toxin fragment” and“toxin portion” are used interchangeably herein to refer to a fragment or portion of a longer (e.g., full-length) chimeric insecticidal protein of the invention, where the“toxin fragment” or“toxin portion” retains insecticidal activity.
- native Ciy proteins are expressed as protoxins that are processed at the N-terminal and C- terminal ends to produce a mature toxin.
- the“toxin fragment” or“toxin portion” of a chimeric insecticidal protein of the invention is truncated at the N-terminus and/or C-terminus.
- the“toxin fragment” or“toxin portion” is truncated at the N-terminus to remove part or all of the N-terminal peptidyl fragment, and optionally comprises at least about 400, 425, 450, 475, 500, 510, 520, 530, 540, 550, 560, 570, 580 or 590 contiguous amino acids of chimeric insecticidal protein specifically described herein or an amino acid sequence that is substantially identical thereto.
- a“toxin fragment” or“toxin portion” of a chimeric insecticidal protein is truncated at the N-terminus (e.g. , to omit part or all of the peptidyl fragment), for example, an N- terminal truncation of one amino acid or more than one amino acid, e.g., up to 2, 3, 4, 5, 6, 7, 8, 9, 10,
- a“toxin fragment” or“toxin portion” of a chimeric insecticidal protein is truncated at the C-terminus (e.g., to omit part or all of the protoxin tail), for example, a C-terminal truncation of one amino acid or more than one amino acid, e.g., up to 2, 3, 4, 5, 6, 7, 8, 9, 10, 1 1, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39,
- the“toxin fragment” or“toxin portion” comprises domains 1 and 2, and the core domain III (e.g ., as shown in Figure 2).
- the“toxin fragment” or“toxin portion” is the mature (i.e., processed) toxin (e.g., Cry toxin).
- Transformation is a process for introducing a heterologous nucleic acid into a host cell or
- transformation means the stable integration of a DNA molecule into the genome of an organism of interest (e.g., a plant cell).
- transformed and“transgenic” as used herein refer to a host organism such as a
- nucleic acid molecule can be stably integrated into the genome of the host or the nucleic acid molecule can also be present as an extrachromosomal molecule. Such an extrachromosomal molecule can be auto-replicating.“Transformed” or“transgenic” cells, tissues, or plants are understood to encompass not only the end product of a transformation process, but also progeny thereof comprising the heterologous nucleic acid molecule.
- a "non-transformed” or “non-transgenic” host refers to a wild-type organism, e.g., a bacterium or plant, which does not contain the heterologous nucleic acid molecule.
- the terra“vector” refers to a composition for transferring, delivering or introducing a nucleic acid (or nucleic acids) into a cell.
- a vector comprises a nucleic acid molecule comprising the nucleotide sequence(s) to be transferred, delivered or introduced.
- the present invention provides novel chimeric insecticidal proteins comprising at least one region from a first Cry protein (e.g ., a BT-0002 protein [SEQ ID NO: 2] and substantially identical variants thereof).
- a first Cry protein e.g ., a BT-0002 protein [SEQ ID NO: 2] and substantially identical variants thereof.
- the invention provides a chimeric insecticidal protein comprising a region from two or more different Cry proteins.
- the resulting chimeric insecticidal protein has increased activity against one or more insect pests (e.g., an enhanced activity or activity against a new target pest) and/or a different mode of action against one or more insect pests as compared with one or more (or even all) of the parent proteins.
- the chimeric insecticidal protein is a chimera comprising regions from two different Cry (e.g., Cryl) proteins, and the chimera has increased insecticidal activity against one or more insect pests as compared with both parent proteins.
- Cry e.g., Cryl
- the chimeric insecticidal proteins of the invention can provide new modes of action against one or more target insect pests.
- the chimeric insecticidal protein can have insecticidal activity against an insect pest or colony that is generally resistant to the insecticidal activity of another agent (e.g, an insecticidal protein, including without limitation a Bt protein, such as a Cry protein or a Vip protein).
- another agent e.g, an insecticidal protein, including without limitation a Bt protein, such as a Cry protein or a Vip protein.
- the parent proteins themselves are not insecticidally active, or only weakly active, against the resistant insect pest or colony, which may suggest that the chimera has a novel mode of action as compared with the parent proteins.
- the parent proteins are active against a target insect pest (“susceptible”), but not against a resistant counterpart, and the chimeric insecticidal protein is active against the resistant insect pest, that is an indication that the chimeric insecticidal protein is toxic to the resistant pest via a novel mode of action.
- the invention provides a chimeric insecticidal protein that is toxic to an insect pest (e.g., a lepidopteran insect pest), the chimeric insecticidal protein comprising a region from a BT-0002 protein (SEQ ID NO: 2) or a polypeptide that is substantially identical to the region from a BT-0029 protein.
- the chimeric insecticidal protein comprises an N- terminal region of a first Cry 1 protein, which is optionally a BT-0002 protein (SEQ ID NO: 2) or a polypeptide comprising an amino acid sequence that is substantially identical to the N-terminal region of the BT-0002 protein.
- the N-terminal region of the first Cry protein is fused to a C-terminal region from a different Cry protein (e.g., a different Cryl protein) to form a chimeric insecticidal protein (e.g., a chimeric insecticidal Cry protein).
- a different Cry protein e.g., a different Cryl protein
- the C-tenninal region from a different Cry protein can be a C- terminal region from a different Cryl protein or a polypeptide comprising an amino acid sequence that is substantially identical to the C-tenninal region from the different Cryl protein.
- a chimeric insecticidal protein of the invention in a representative embodiment, a chimeric insecticidal protein of the invention
- a first Cry protein e.g., a Cryl protein
- a second Cry protein which is optionally an N-terminal region of a BT-0002 protein or an amino acid sequence that is substantially identical to the N-terminal region of the BT-0002 protein, fused to (b) a C-terminal region of a different Cry protein (e.g., a different Cryl protein).
- the different Cry protein (e.g., Cryl protein) is selected based on an alignment of the C-tenninal region from the different Cry protein and the corresponding region from the first Cry protein (e.g., a Cryl protein), for example, see the exemplary alignments in Figures 1A and IB.
- the different Cry protein is selected such that the amino acid sequence of the C-terminal region of the different Ciy protein is substantially identical to the corresponding region of the first Cty protein.
- the amino acid sequence of the C- terminal region of the different Ciy protein (e.g., Cryl protein) is at least about 85%, 86%, 87%,
- the different Cryl protein includes without limitation a CrylF protein (e.g., a CrylFa or a CrylFb protein) or a Cryll protein (e.g, a Crylla protein, a Cryllb protein, a Cryllc protein, a Crylld protein, a Crylle protein, a Cryllf protein, or a Cryllg protein).
- the different Cryl protein is a Cryllf protein, optionally a BT-0022 protein (SEQ ID NO: 1).
- a different Cryl protein is a CrylFa protein (SEQ ID NO: 3).
- N-terminal region and a“C-terminal region” do not necessarily indicate that the most N-terminal or C-terminal amino acids (e.g, the N-terminus or C-terminus), respectively, of the full-length protein are included within the region.
- Cry protoxins are processed at both the N-terminus and C-terminus to produce a mature (i.e., processed) toxin.
- the“N-terminal region” and/or the“C-terminal region” omit some or all of the processed out portions of the protoxin such that the chimeric insecticidal protein comprises the mature toxin protein (e.g., Cry protein Domains I, II and III), without some or all of the N-terminal peptidyl fragment and/or the C-terminal protoxin tail, or a polypeptide that is substantially identical to tire mature toxin protein.
- the chimeric insecticidal protein comprises tire peptidyl fragment and/or protoxin tail.
- the chimeric insecticidal protein does not comprise the peptidyl fragment or protoxin tail, i.e., corresponds to the mature processed toxin.
- the N-terminal region of the first Ciyl protein comprises, consists essentially of, or consists of a polypeptide corresponding to an amino acid sequence from about position 1 , 2, 3, 4, 5, 6, 7, 8, 9, 10, 1 1, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21 , 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 or 40 to about position 430, 431, 432, 433, 434, 435, 436, 437, 438, 439,
- the N-terminal region of the first Cryl protein comprises, consists essentially of, or consists of a polypeptide corresponding to an amino acid sequence from about position 1 to about position 430, 431 , 432, 433, 434, 435, 436, 437, 438, 439, 440, 441, 442, 443, 444, 445, 446,
- the N-terminal region of the first Cryl protein comprises, consists essentially of, or consists of an amino acid sequence corresponding to an amino acid sequence from about position 1 to about amino acid position 458 of SEQ ID NO: 2.
- the C-terminal region of the second Cry 1 protein comprises, consists essentially of, or consists of a polypeptide corresponding to an amino acid sequence from about position 435, 436, 437, 438, 439, 440, 441 , 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 452, 453, 454, 455, 456, 457, 458, 449, 450, 451, 452, 453, 454, 455, 456, 457, 458, 459, 460, 461, 462, 463, 464, 465, 466, 467, 468, 469, 470, 471, 472, 473, 474, 475, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, 490, 491, 492, 493, 494, 495, 496, 497, 498, 499 or 500 to about position 580, 5
- the C-terminal region of the second Cryl protein comprises, consists
- the C-terminal region of the second Cryl protein comprises, consists
- the C-terminal region of the second Cryl protein comprises, consists
- the C-terminal region of the second Ciy 1 protein comprises, consists essentially of, or consists of a polypeptide corresponding to an amino acid sequence from about position 470, 471, 472, 473, 474, 475, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, 490, 491, 492, 493, 494, 495, 496, 497, 498, 499, 500, 501, 502, 503, 504, 505, 506,
- the C-tenninal region of the second Cryl protein comprises, consists
- the C-terminal region of the second Cryl protein comprises, consists essentially of, or consists of a polypeptide corresponding to an amino acid sequence from about position 470, 471, 472, 473, 474, 475, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, 490, 491, 492, 493, 494, 495, 496, 497, 498, 499, 500, 501, 502, 503, 504, 505, 506, 507,
- the C-terminal region of the second Cryl protein comprises, consists
- FIG. 1A and IB show an alignment of the Cry proteins BT-0002, BT-0022 and CrylFa, with CB3 and Domain III indicated.
- Those skilled in the art can use the well-known sequence and structural information available for Cry proteins to create a chimeric insecticidal Cry protein according to the invention, for example, to select a suitable crossover region(s) between two Cry proteins.
- a crossover region is located within a conserved block, for example, within CB3.
- the tenn“within a conserved block” includes the positions at each end of the conserved block.
- Figures 2A and 2B show exemplary chimeric insecticidal proteins according to the invention with a crossover region within CB3.
- a crossover is located in a position
- a crossover is located within a region (including the residues at each end of the region) corresponding to amino acid residue 2 to amino acid residue 7, 8, 9 or 10 of CB3, within a region corresponding to amino acid residue 1 1 to amino acid residue 14, 15,
- a crossover is located in a position within a region corresponding to amino acid residue 19 to amino acid residue 51, amino acid residue 19 to amino acid residue 33, amino acid residue 19 to amino acid residue 28, amino acid residue 19 to amino acid residue 27, or amino acid residue 19 to amino acid residue 26 in CB3.
- a crossover position is located at the specific site in between amino acid residue 18 and amino acid residue 19 in CB3.
- the chimeric insecticidal proteins can also be defined with respect to the structural domains derived from each of the parent molecules.
- the N-terminal region of the first Cry protein comprises domain I of the first Cry protein and all or essentially all of domain II.
- the C-terminal region of the different Cry protein comprises all or essentially all of domain III of the different Cry protein.
- the crossover between the N-terminal region of the first Cry protein and the C-terminal region derived from the different Cry protein is located in CB3.
- the C-terminal region of the different Cry protein is selected based on an alignment of domain III (e.g., a core domain HI as shown in Figure 1 A) from the different Cry protein and the corresponding domain III sequence from the first Cry protein (e.g., a Ciyl protein, such as BT-0002), for example, see the exemplary alignments in Figures 1 A and IB, with domain III specifically indicated.
- the different Cry protein is selected such that the amino acid sequence of domain III of the different Cry protein is substantially identical to the corresponding domain III region of the first Cry protein (e.g., BT-0002).
- the amino acid sequence of the domain III region of the different Cry protein is at least about 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or more identical with an amino acid sequence of the corresponding domain III region from the first Cry protein.
- Methods of aligning and determining amino acid sequence identity across an aligned region are well known by those skilled in the art.
- a chimeric insecticidal protein of the invention comprises, consists essentially of, or consists of (a) the amino acid sequence of any one of amino acids 1 to 597 of any of SEQ ID Nos: 4, 5, 6, 10, 1 1 , 12, 13 or 14 or amino acids 1 to 603 of any of SEQ ID Nos: 7, 8, 9, 15,
- native Cry toxins are expressed as protoxins that are processed to produce a mature processed toxin by cleaving an N-terminal peptidyl fragment and a C- terminal protoxin tail.
- the N-terminal peptidyl fragment and/or the C-terminal protoxin tail may function to enhance the stability and/or the insecticidal activity of the Cry toxin.
- the chimeric insecticidal protein comprises all or a portion of an N-terminal peptidyl fragment and/or a protoxin tail.
- the chimeric insecticidal protein does not comprise a full N-terminal peptidyl fragment and/or a full protoxin tail.
- the chimeric insecticidal protein does not comprise an N-terminal peptidyl fragment and/or a protoxin tail, i.e., corresponds to the mature processed toxin.
- the N-terminal peptidyl fragment is derived from a Cry protein (e.g., from the first Ciy protein, which is optionally a Cryl protein).
- the N-terminal peptidyl fragment is heterologous to the first Cry protein, for example, is not derived from a Cry protein and/or is partially or completely synthetic.
- the peptidyl fragment comprises at least about 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51 , 52, 53, 54, 55, 56, 57, 58, 59, 60 or more amino acids, optionally from the first Cry protein, including without limitation a first Cryl protein (e.g., BT-0002, SEQ ID NO: 2).
- a first Cryl protein e.g., BT-0002, SEQ ID NO: 2
- the peptidyl fragment comprises amino acids from about amino acid 1 to about amino acid 5, 6, 7, 8, 9, 10, 1 1, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59 or 60 of the first Cry protein, e.g., a Cryl protein such as BT-0002.
- a Cryl protein such as BT-0002.
- the chimeric insecticidal protein of the invention comprises at the C-tenninus a protoxin tail region of a Bt Cry protein, including modifications of native Cry protein protoxin tails that are substantially identical to a native Cry protein protoxin tail.
- the protoxin tail is from a lepidopteran-active Ciy protein.
- the protoxin tail is not derived from a Cry protein and/or is partially or completely synthetic.
- the Ciy protein is heterologous to the first Cry protein and/or the different Ciy protein.
- the protoxin tail is from a Cryl protein, e.g., a BT-0002, a BT-0022 or a Ci lF, or is a polypeptide that is substantially identical to a protoxin tail (or fragment thereof) from any of the foregoing.
- the protoxin tail region may comprise an entire protoxin tail of a Cry protein or any portion thereof.
- the protoxin tail region comprises at least about 5, 6, 7, 8, 9, 10, 1 1 , 12, 13, 14, 15, 20, 25, 30, 35, 38, 40, 45, 50 or more contiguous amino acids of a Cry protein protoxin tail (e.g., a Cryl protoxin tail, such as a BT- 0002), for example, as shown for the various Cry proteins in Figure 1A.
- the protoxin tail comprises at least about 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 20, 25, 30, 35, 38, 40, 45, 50 or more contiguous amino acids starting with amino acid position 598 of SEQ ID NO: 2 (BT-0002) or the corresponding region from another Cry protein, such as a Cryl protein (e.g. : BT-0022, a Cry II or a Cry IF protein).
- a chimeric insecticidal protein of the invention comprises, consists essentially of, or consists of (a) the amino acid sequence of any one of SEQ ID NO: 4-18, or a toxin fragment thereof; or (b) an amino acid sequence that is substantially identical to the amino acid sequence of (a).
- the chimeric insecticidal protein of the invention comprises, consists essentially of, or consists of the amino acid sequence of any one of amino acids SEQ ID NO: 4-18.
- the chimeric insecticidal proteins of the invention can further comprise other functional domains and/or peptide tags, for example a peptide tag on the N-tenninus and/or C-terminus.
- a peptide tag on the N-tenninus and/or C-terminus it may be useful to express the chimeric insectidical protein with a peptide tag that can be recognized by a commercially available antibody (e.g., a FLAG motif) or with a peptide tag that facilitates purification (e.g., by addition of a poly-His tag) and/or detection.
- an epitope can be introduced into the chimeric protein to facilitate the generation of antibodies that specifically recognize the modified chimeric protein to distinguish the modified chimeric protein from the unmodified chimera and/or a parent protein(s).
- one or more amino acids can be substituted into an antigenic loop of the native sequence to create a new epitope.
- the antigenic loop is located in a non-conserved region outside of domain I of the native Cry protein.
- the antigenic loop is not a loop involved in insect gut receptor recognition by the Cry protein and/or is not involved in the protease activation of the Cry protein.
- the chimeric protein can be modified to enhance its stability, for example, by fusing a maltose binding protein (MBP) or glutathione-S-transferase to the polypeptide.
- MBP maltose binding protein
- the fusion protein can comprise a reporter molecule.
- Chimeric insecticidal proteins that are modified by introduction or elimination of a protease processing site at an appropriate position(s) to provide, or eliminate, proteolytic cleavage by an insect, plant and/or microorganism protease are also within the scope of the invention.
- the modified chimeric insecticidal protein substantially retains insectidical activity.
- the stability and/or insecticidal activity of such modified chimeric proteins is increased as compared with the chimeric insecticidal protein that does not contain such modification to introduce/eliminate a protease cleavage site.
- the invention encompasses polypeptides having amino acid sequences that are
- chimeric insecticidal proteins specifically disclosed herein will typically tolerate modifications in the amino acid sequence and substantially retain biological activity (e.g. , insecticidal activity). Such modifications include insertions, deletions (including truncations at either terminus), and substitutions of one or more amino acids, including up to about 2, about 3, about 4, about 5, about 6, about 7, about 8, about 9, about 10, about 15, about 20, about 25, about 30, about 35, about 40, about 45, about 50, about 55, about 60, about 65, about 70, about 75, about 80, about 85, about 90, about 100, about 105, about 110, about 1 15, about 120, about 125, about 130, about 135, about 140, about 145, about 150, about 155, or more amino acid substitutions, deletions and/or insertions.
- amino acid substitutions may be based on any characteristic known in the art, including the relative similarity or differences of the amino acid side-chain substituents, for example, their hydrophobicity, hydrophilicity, charge, size, and the like.
- the hydropathic index of amino acids may be considered.
- the importance of the hydropathic amino acid index in conferring interactive biologic function on a protein is generally understood in the art (see, Kyte and Doolittle, (1982) J. Mol. Biol. 157: 105;
- Each amino acid has been assigned a hydropathic index on the basis of its hydrophobicity and charge characteristics (Kyte and Doolittle, Id.), these are: isoleucine (+4.5); valine (+4.2); leucine (+3.8); phenylalanine (+2.8); cysteine/cystine (+2.5); methionine (+1.9); alanine (+1.8); glycine (- 0.4); threonine (-0.7); serine (-0.8); tryptophan (-0.9); tyrosine (-1.3); proline (-1.6); histidine (-3.2); glutamate (-3.5); glutamine (-3.5); aspartate (-3.5); asparagine (-3.5); lysine (-3.9); and arginine (- 4.5).
- the hydropathic index of the amino acid may be
- hydrophilicity values have been assigned to amino acid residues: arginine (+3.0); lysine (.+-.3.0); aspartate (+3.0. +-.1); glutamate (+3.0.+-.1); serine (+0.3); asparagine (+0.2); glutamine (+0.2); glycine (0); threonine (-0.4); proline (-0.5+1); alanine (-0.5); histidine (-0.5); cysteine (-1.0); methionine (-1.3); valine (-1.5); leucine (-1.8);
- isoleucine (-1.8); tyrosine (-2.3); phenylalanine (-2.5); tryptophan (-3.4).
- hydrophilicity of the amino acid may be considered when identifying additional insecticidal polypeptides beyond those specifically disclosed herein.
- the chimeric insecticidal proteins of the invention can be made by any suitable method known in the art, generally by modifying the coding nucleic acid sequences. Methods of manipulating and modifying nucleic acids to achieve a desired modification are well-known in the art. In addition, gene editing techniques can also be used produce a chimeric insecticidal protein of the invention or to make further modifications thereto.
- polypeptide to be modified can be expressed in a host cell that
- XL-1 Red (Stratagene, La Jolla, CA).
- XL-1 Red XL-1 Red
- the protein is mixed and used in feeding assays. See, for example, Marrone et al. (1985) J. of Economic Entomology 78:290-293.
- Such assays can include contacting plants with one or more pests and determining the plant's ability to survive or cause the death of the pests. Examples of mutations that result in increased toxicity are found in Schnepf et al. (1998) Microbiol. Mol. Biol. Rev. 62:775- 806.
- the chimeric insecticidal protein (including substantially similar polypeptides and toxin fragments) of the invention is isolated. In embodiments, the chimeric insecticidal protein (including substantially similar polypeptides and toxin fragments) of the invention is a recombinant protein.
- the chimeric insecticidal proteins of the invention have insecticidal activity against a
- the chimeric insecticidal protein has activity against one or more of the following non-limiting examples of a lepidopteran pest: Ostrinia spp. such as O. nubilalis (European com borer) and/or O. fumacalis (Asian corn borer); Plutella spp. such as P. xylostella (diamondback moth); Spodoptera spp. such as S. frugiperda (fall armyworm), S. littoralis (Egyptian cotton leafworm), S. ornithogalli (yellowstriped armyworm), S. praefica (western yellowstriped armyworm), S.
- Ostrinia spp. such as O. nubilalis (European com borer) and/or O. fumacalis (Asian corn borer)
- Plutella spp. such as P. xylostella (diamondback moth)
- Spodoptera spp. such as S
- eridania southern armyworm
- S. exigua beet armyworm
- Agrotis spp. such as A. ipsilon (black cutworm), A. segetum (common cutworm), A. gladiaria (claybacked cutworm), and/or A. orthogonia (pale western cutworm); Striacosia spp. such as S. albicosta (western bean cutworm); Helicoverpa spp. such as H. zea (com earworm), H. punctigera (native budworm), and/or H. armigera (cotton bollworm); Heliothis spp. such as H. virescens (tobacco budworm); Diatraea spp.
- D. grandiosella southwestern corn borer
- D. saccharalis sugarcane borer
- Trichoplusia spp. such as T. ni (cabbage looper)
- Sesamia spp. such as S. nonagroides (Mediterranean com borer) and/or S. calamistis (pink stem borer)
- Pectinophora spp. such as P. gossypiella (pink bollworm)
- Cochylis spp. such as C. hospes (banded sunflower moth)
- Manduca spp. such as M. sexta (tobacco homworm) and/or M.
- quinquemaculata tomato homworm
- Elasmopalpus spp. such as E. lignosellus (lesser cornstalk borer);
- Pseudoplusia spp. such as P. includens (soybean looper);
- Anticarsia spp. such as A. gemmatalis (velvetbean caterpillar); Plathypena spp. such as P. scabra (green cloverworm); Pier is spp. such as P. brassicae (cabbage butterfly), Papaipema spp. such as P. nebris (stalk borer); Pseudaletia spp. such as P. unipuncta (common armyworm); Peridroma spp. such as P. saucia (variegated cutworm); Keiferia spp. such as K. lycopersicella (tomato pinwonn); Artogeia spp. such as A.
- rapae imported cabbageworm
- Phthorimaea spp. such as P. operculella (potato tuberworm); Chrysodeixis spp.
- C. includes (soybean looper); Feltia spp. such as F. cutens (dingy cutworm); Chilo spp. such as C. suppressalis (striped stem borer), Cnaphalocrocis spp. such as C. medinalis (rice leaffolder), or any combination of the foregoing.
- the chimeric insecticidal protein has increased activity against one or more
- the chimeric insecticidal protein has increased activity against one or more lepidopteran pests as compared with BT-0002. In embodiments, the chimeric insecticidal protein has increased activity against one or more lepidopteran pests as compared with BT-0022, a Cry 1 Fa, or a Cry 1 If.
- the chimeric insecticidal protein has enhanced insecticidal activity against fall armyworm (Spodoptera frugiperda) as compared with one or more of the parent molecules (e.g., the first Ciy protein and the different Cry protein).
- the chimeric insecticidal protein has increased activity against fall armyworm as compared with BT-0002.
- the chimeric insecticidal protein has increased activity against fall armyworm as compared with BT-0022, a Cry 1 Fa and/or a Cry 1 If.
- the chimeric insecticidal protein can optionally have insecticidal activity against a fall armyworm insect pest or colony that has resistance to another insecticidal agent, including another insecticidal protein (such as, e.g. , a Bt protein).
- another insecticidal protein such as, e.g. , a Bt protein.
- the chimeric insecticidal protein has insecticidal activity against a fall armyworm colony that is resistant to a Vip3A protein (e.g., a Vip3Aa, including without limitation maize event MIR162) or a CrylF protein (e.g., CrylFa, including without limitation maize event TCI 507).
- Vip3A protein e.g., a Vip3Aa, including without limitation maize event MIR162
- CrylF protein e.g., CrylFa, including without limitation maize event TCI 507.
- the chimeric insecticidal protein has enhanced activity against the resistant fall armyworm colony as compared with one or more of the parent molecules, e.g., BT-0002, BT-0022, a CrylFa and/or a Cry 1 If.
- the invention also encompasses antibodies that specifically bind to a chimeric insecticidal protein of the invention.
- the antibody can optionally be a monoclonal antibody or a polyclonal antisera.
- the antibody is selective for the chimeric protein and does not bind to one or more of the parent molecules (e.g, BT-0002, BT-0022, CrylFa, and the like), and can be used to distinguish the chimeric protein from the parent protein ⁇ .
- Such antibodies may be produced using standard immunological techniques for production of polyclonal antisera and, if desired,
- the present invention also encompasses an insecticidal protein that cross-reacts with an antibody, particularly a monoclonal antibody, raised against one or more of the chimeric insecticidal proteins of the present invention.
- the antibodies according to the invention are useful, e.g., in immunoassays for determining the amount or presence of a chimeric insecticidal protein of the invention or an antigenically related polypeptide, e.g, in a biological sample. Such assays are also useful in quality-controlled production of compositions containing one or more of the chimeric insecticidal proteins of the invention or an antigenically related polypeptide.
- the antibodies can be used to assess the efficacy of recombinant production of one or more of the chimeric proteins of the invention or an antigenically related polypeptide, as well as for screening expression libraries for the presence of a nucleotide sequence encoding one or more of the chimeric proteins of the invention or an antigenically related polypeptide.
- Antibodies further find use as affinity ligands for purifying or isolating any one or more of the proteins of the invention or an antigenically related polypeptide.
- the invention provides nucleic acids encoding the polypeptides of the
- the invention provides a nucleic acid molecule comprising a nucleotide sequence that comprises, consists essentially of, or consists of: (a) a nucleotide sequence encoding the amino acid sequence of any one of SEQ ID NOs: 4-18, or a toxin fragment thereof; (b) a nucleotide sequence encoding an amino acid sequence that is substantially identical to the amino acid sequence of (a); (c) a nucleotide sequence that anneals under stringent hybridization conditions to the nucleotide sequence of (a) or (b); or (d) a nucleotide sequence that differs from the nucleotide sequences of (a), (b) or (c) due to the degeneracy of the genetic code.
- the nucleic acid molecule comprises a nucleotide sequence that comprises, consists essentially of, or consists of: (a) a nucleotide sequence of any one of SEQ ID NOs: 19-33, or a toxin-encoding fragment thereof; (b) a nucleotide sequence that is substantially identical to the nucleotide sequence of (a); (c) a nucleotide sequence that anneals under stringent hybridization conditions to the nucleotide sequence of (a) or (b); or (d) a nucleotide sequence that differs from the nucleotide sequences of (a), (b) or (c) due to the degeneracy of the genetic code.
- the nucleotide sequence comprises, consists essentially of, or consists of the nucleotide sequence of any one of SEQ ID NOs: 19-33.
- the nucleotide sequence is a partially or completely synthetic sequence, e.g., that has codons optimized for expression in a host organism, e.g., in a bacterium host or a plant host (for example, a transgenic monocot plant host or a transgenic dicot plant host).
- the nucleotide sequences of the invention are modified and/or optimized.
- genes from microbial organisms can be expressed in plants at high levels without modification, low expression in transgenic plants may result from microbial nucleotide sequences having codons that are not preferred in plants.
- living organisms have specific preferences for codon usage, and the codons of the nucleotide sequences described in this invention can be changed to conform with plant preferences, while maintaining the amino acids encoded thereby.
- high expression in plants for example com plants, can be achieved from coding sequences that have at least about 35% GC content, or at least about 45%, or at least about 50%, or at least about 60%.
- Microbial nucleotide sequences that have low GC contents may express poorly in plants.
- nucleotide sequences can be adequately expressed in both monocotyledonous and dicotyledonous plant species, sequences can be modified to account for the specific codon preferences and GC content preferences of monocotyledons or dicotyledons as these preferences have been shown to differ (Murray et al. Nucl. Acids Res. 17:477-498 (1989)). In addition, in
- the nucleotide sequence is modified to remove illegitimate splice sites that may cause message truncation.
- modifications to the nucleotide sequences can be made using well known techniques of site directed mutagenesis, PCR, and synthetic gene construction using the methods described, for example, in US Patent Nos. 5,625,136; 5,500,365 and 6,013,523.
- the invention provides synthetic coding sequences or polynucleotide made according to the procedure disclosed in U.S. Pat. No. 5,625,136.
- maize preferred codons i.e., the single codon that most frequently encodes that amino acid in maize.
- the maize preferred codon for a particular amino acid can be derived, for example, from known gene sequences from maize. For example, maize codon usage for 28 genes from maize plants is found in Murray et al., Nucleic Acids Research 17:477-498 (1989). It is recognized that codons optimized for expression in one plant species will also function in other plant species but possibly not at the same level as the plant species for which the codons were optimized.
- nucleotide sequences can be optimized for expression in any plant. It is recognized that all or any part of a nucleotide sequence may be optimized or synthetic. That is, a polynucleotide may comprise a nucleotide sequence that is part native sequence and part codon optimized sequence.
- a polynucleotide of the invention is an isolated polynucleotide.
- a polynucleotide of the invention is a recombinant polynucleotide.
- the invention further provides a nucleic acid molecule comprising a
- a promoter e.g ., a heterologous promoter
- Promoters can include, for example, constitutive, inducible, temporally regulated, developmentally regulated, chemically regulated, tissue-preferred and/or tissue-specific promoters.
- a promoter useful with the invention is a promoter capable of initiating transcription of a nucleotide sequence in a plant cell, e.g., in a cell of a monocot (e.g., maize or rice) or dicot (e.g., soybean, cotton) plant.
- a heterologous promoter is a plant-expressible promoter (e.g., monocot
- the plant-expressible promoter can be selected from the following promoters: ubiquitin, cestrum yellow virus, corn TrpA, OsMADS 6, maize H3 histone, bacteriophage T3 gene 9 5' UTR, corn sucrose synthetase 1, corn alcohol dehydrogenase 1, com light harvesting complex, corn heat shock protein, maize mtl, pea small subunit RuBP carboxylase, rice actin, rice cyclophilin, Ti plasmid mannopine synthase, Ti plasmid nopaline synthase, petunia chalcone isomerase, bean glycine rich protein 1, potato patatin, lectin, CaMV 35S and S-E9 small subunit RuBP carboxylase promoter.
- promoters ubiquitin, cestrum yellow virus, corn TrpA, OsMADS 6, maize H3 histone, bacteriophage T3 gene 9 5' UTR, corn sucrose synthetase 1, corn
- dicotyledonous promoters are selected for expression in dicotyledons, and monocoiyledonous promoters for expression in monocotyledons.
- monocoiyledonous promoters for expression in monocotyledons.
- expression of the nucleotide sequences of the invention can be in any plant and/or plant part, (e.g., in leaves, in stalks or stems, in ears, in inflorescences (e.g., spikes, panicles, cobs, etc.), in roots, seeds and/or seedlings, and the like).
- a tissue-specific or tissue-preferred promoter can be used (e.g., a root specific/preferred promoter).
- a promoter inducible by stimuli or chemicals can be used.
- continuous expression at a relatively constant level is desired throughout the cells of a plant a constitutive promoter can be chosen.
- Promoters useful with the invention include, but are not limited to, those that drive expression of a nucleotide sequence constitutively, those that drive expression when induced, and those that drive expression in a tissue- or developmentally-specific manner. These various types of promoters are known in the art.
- Suitable constitutive promoters include, for example, CaMV 35S promoter (Odell et ah, Nature 313:810-812, 1985); Arabidopsis At6669 promoter (see PCT Publication No. W004081 173A2); maize Ubi 1 (Christensen et al., Plant Mol. Biol. 18:675-689, 1992); rice actin (McElroy et ah, Plant Cell 2: 163-171, 1990); pEMU (Last et al., Theor. Appl. Genet. 81 :581-588, 1991); CaMV 19S (Nilsson et al., Physiol.
- tissue-specific or tissue-preferential promoters useful for the expression of the polypeptides of the invention in plants, optionally maize include those that direct expression in root, pith, leaf or pollen.
- tissue-specific promoters include, but not limited to, leaf-specific promoters (such as described, for example, by Yamamoto et al., Plant J. 12:255-265, 1997; Kwon et al., Plant Physiol. 105:357-67, 1994; Yamamoto et al., Plant Cell Physiol. 35:773-778, 1994; Gotor et al., Plant J. 3:509-18, 1993; Orozco et al., Plant Mol. Biol.
- endosperm specific promoters e.g., wheat LMW and HMW, glutenin-1 (Mol Gen Genet 216:81-90, 1989; NAR 17:461-2), wheat a, b and g gliadins
- flower-specific promoters for example, AtPRP4, chalene synthase (chsA) (Van der Meer, et al. Plant Mol. Biol. 15, 95-109, 1990), LAT52 (Twell et al. Mol. Gen Genet. 217:240-245; 1989), apetala-3, and promoters specific for plant reproductive tissues (e.g., OsMADS promoters; U.S.
- promoters suitable for preferential expression in green tissue include many that regulate genes involved in photosynthesis and many of these have been cloned from both
- One such promoter is the maize PEPC promoter from the phosphoenol carboxylase gene (Hudspeth & Grula, Plant Molec. Biol. 12:579-589 (1989)).
- Another promoter for root specific expression is that described by de Framond (FEBS 290: 103-106 (1991 ) or US Patent No. 5,466,785).
- Another promoter useful in the invention is the stem specific promoter described in U.S. Pat. No. 5,625,136, which naturally drives expression of a maize trpA gene.
- promoters functional in plastids can be used.
- Non-limiting examples of such promoters functional in plastids can be used.
- promoters include the bacteriophage T3 gene 9 5' UTR and other promoters disclosed in U.S. Patent No. 7,579,516.
- Other promoters useful with the invention include but are not limited to the S-E9 small subunit RuBP carboxylase promoter and the Kunitz trypsin inhibitor gene promoter (Kti3).
- inducible promoters can be used.
- chemical-regulated promoters can be used to modulate the expression of a gene in a plant through the application of an exogenous chemical regulator. Regulation of the expression of nucleotide sequences of the invention via promoters that are chemically regulated enables the polypeptides of the invention to be synthesized only when the crop plants are treated with the inducing chemicals.
- the promoter may be a chemical-inducible promoter, where application of a chemical induces gene expression, or a chemical-repressible promoter, where application of the chemical represses gene expression. Examples of such technology for chemical induction of gene expression is detailed in published application EP 0 332 104 and US Patent No. 5,614,395.
- Chemical inducible promoters are known in the art and include, but are not limited to, the maize In2-2 promoter, which is activated by benzenesulfonamide herbicide safeners, the maize GST promoter, which is activated by hydrophobic electrophilic compounds that are used as pre-emergent herbicides, and the tobacco PR-1 a promoter, which is activated by salicylic acid (e.g., the PRla system), steroid steroid-responsive promoters (see, e.g., the glucocorticoid-inducible promoter in Schena et al. (1991) Proc. Natl. Acad. Sci.
- the maize In2-2 promoter which is activated by benzenesulfonamide herbicide safeners
- the maize GST promoter which is activated by hydrophobic electrophilic compounds that are used as pre-emergent herbicides
- the tobacco PR-1 a promoter which is activated by salicylic acid (e.g.
- inducible promoters include ABA- and turgor-inducible
- the auxin-binding protein gene promoter (Schwob et al. (1993) Plant J. 4:423-432), the UDP glucose flavonoid glycosyl-transferase promoter (Ralston et al. (1988) Genetics 1 19: 185-197), the MPI proteinase inhibitor promoter (Cordero et al. (1994) Plant J. 6: 141-150), and the
- promoters useful in the invention are wound inducible promoters.
- promoters Numerous promoters have been described that are expressed at wound sites and also at the sites of phytopathogen infection. Ideally, such a promoter should only be active locally at the sites of insect invasion, and in this way the insecticidal proteins only accumulate in cells that need to synthesize the insecticidal proteins to kill the invading insect pest. Examples of promoters of this kind include those described by Stanford et al. Mol. Gen. Genet. 215:200-208 (1989), Xu et al. Plant Molec. Biol. 22:573-588 (1993), Logemann et al. Plant Cell 1 : 151-158 (1989), Rohrmeier & Lehle, Plant Molec. Biol. 22:783-792 (1993), Firek et al. Plant Molec. Biol. 22: 129-142 (1993), and Warner et al. Plant J. 3: 191-201 (1993).
- nucleic acid of the invention can comprise, consist essentially of, or consist of an expression cassette, or can be comprised within an expression cassette.
- An expression cassette comprising a polynucleotide of interest may be chimeric, meaning that at least one of its components is heterologous with respect to at least one other of its other components.
- An expression cassette may also be one that is naturally occurring but has been obtained in a recombinant form useful for heterologous expression.
- the expression cassette is heterologous with respect to the host, i.e., the particular nucleic acid sequence of the expression cassette does not occur naturally in the host cell and must have been introduced into the host cell or an ancestor of the host cell by a transformation event.
- an expression cassette of this invention can also include other regulatory elements.
- Regulatory elements include, but are not limited to, enhancers, introns, translation leader sequences, termination signals, and polyadenylation signal sequences.
- suitable transcription terminator signals are available and known in the art (e.g., tml from CaMV, E9 from rbcS). Any available terminator known to function in plants can be used in the context of this invention.
- sequences adjacent to the initiating methionine may be modified. For example, they can be modified by the inclusion of sequences known to be effective in plants. Joshi has suggested an appropriate consensus for plants (NAR 15:6643-6653 (1987)) and Clonetech suggests a further consensus translation initiator (1993/1994 catalog, page 210). These consensuses are suitable for use with the nucleotide sequences of this invention.
- sequences are incorporated into constructions comprising the nucleotide sequences, up to and including the ATG (while leaving the second amino acid unmodified), or alternatively up to and including the GTC subsequent to the ATG (with the possibility of modifying the second amino acid of the transgene).
- amino terminal sequences can be responsible for targeting a protein of interest to a cell compartment, such as, a vacuole, mitochondrion, peroxisome, protein bodies, endoplasmic reticulum, chloroplast, starch granule, amyloplast, apoplast or cell wall of a plant cell (e.g. Unger et. al. Plant Molec. Biol. 13: 41 1-418 (1989); Rogers et. al. (1985) Proc. Natl. Acad. Sci. USA 82: 6512-651; U.S. Pat. No. 7,102,057; WO 2005/096704.
- a cell compartment such as, a vacuole, mitochondrion, peroxisome, protein bodies, endoplasmic reticulum, chloroplast, starch granule, amyloplast, apoplast or cell wall of a plant cell (e.g. Unger et. al. Plant Molec. Biol. 13: 41 1-418
- the signal sequence may be an N-terminal signal sequence from waxy, an N-terminal signal sequence from gamma-zein, a starch binding domain, a C-terminal starch binding domain, a chloroplast targeting sequence, which imports the mature protein to the chloroplast (Comai et. al. (1988) J. Biol. Chem. 263: 15104-15109; van den Broeck, et. al. (1985) Nature 313: 358-363; U.S. Pat. No. 5,639,949) or a secretion signal sequence from aleurone cells (Koehler & Ho, Plant Cell 2: 769-783 (1990)).
- amino terminal sequences in conjunction with carboxyl terminal sequences are responsible for vacuolar targeting of gene products and can be used with the present invention (Shinshi et. al. (1990) Plant Molec. Biol. 14: 357-368).
- the signal sequence selected includes the known cleavage site, and the fusion constructed takes into account any amino acids after the cleavage site(s), which are required for cleavage. In some cases this requirement may be fulfilled by the addition of a small number of amino acids between the cleavage site and the transgene ATG or, alternatively, replacement of some amino acids within the transgene sequence.
- An expression cassete of the invention also can include a nucleotide sequence for a selectable marker, which can be used to select a transformed plant, plant part and/or plant cell.
- a selectable marker which can be used to select a transformed plant, plant part and/or plant cell.
- suitable selectable markers are known in the art and can be used in the expression cassetes described herein.
- selectable markers include, but are not limited to, a nucleotide sequence encoding neo or nptll, which confers resistance to kanamycin, G418, and the like (Potiykus et al. (1985) Mol. Gen. Genet. 199: 183-188); a nucleotide sequence encoding bar, which confers resistance to phosphinothricin; a nucleotide sequence encoding an altered 5-enolpyruvylshikimate-3-phosphate (EPSP) synthase, which confers resistance to glyphosate (Hinchee et al. (1988) Biotech.
- a nucleotide sequence encoding neo or nptll which confers resistance to kanamycin, G418, and the like
- a nucleotide sequence encoding bar which confers resistance to phosphinothricin
- nucleotide sequence encoding a nitrilase such as bxn from Klebsiella ozaenae that confers resistance to bromoxynil (Stalker et al. (1988) Science 242:419-423); a nucleotide sequence encoding an altered acetolactate synthase (ALS) that confers resistance to imidazolinone, sulfonylurea or other ALS- inhibiting chemicals
- ALS acetolactate synthase
- EP Patent Application No. 154204 a nucleotide sequence encoding a methotrexate-resistant dihydrofolate reductase (DHFR) (Thillet et al. (1988) J. Biol. Chem.
- a nucleotide sequence encoding a dalapon dehalogenase that confers resistance to dalapon a nucleotide sequence encoding a mannose-6-phosphate isomerase (also referred to as phosphomannose isomerase (PMI)) that confers an ability to metabolize mannose (US Patent Nos. 5,767,378 and 5,994,629); a nucleotide sequence encoding an altered anthranilate synthase that confers resistance to 5-methyl tryptophan; or a nucleotide sequence encoding hph that confers resistance to hygromycin.
- PMI phosphomannose isomerase
- Additional selectable markers include, but are not limited to, a nucleotide sequence encoding b- glucuronidase or uidA (GUS) that encodes an enzyme for which various chromogenic substrates are known; an R-locus nucleotide sequence that encodes a product that regulates the production of anthocyanin pigments (red color) in plant tissues (Dellaporta et al.,“Molecular cloning of the maize R-nj allele by transposon-tagging with Ac” 263-282 In: Chromosome Structure and Function:
- nucleotide sequence encoding b- lactamase an enzyme for which various chromogenic substrates are known (e.g ., PADAC, a chromogenic cephalosporin) (Sutcliffe (1978) Proc. Natl. Acad. Sci. USA 75:3737-3741); a nucleotide sequence encoding xylE that encodes a catechol dioxygenase (Zukowsky et al. (1983) Proc. Natl. Acad. Sci.
- tyrosinase an enzyme capable of oxidizing tyrosine to DOPA and dopaquinone, which in turn condenses to form melanin
- b-galactosidase an enzyme for which there are chromogenic substrates
- lux luciferase
- an expression cassette of the invention also can include polynucleotides that encode other desired traits in addition to the chimeric insecticidal proteins of the invention.
- other polynucleotides include that those encode a polypeptide or a dsRNA for the other desired trait(s) of interest.
- Such expression cassettes comprising the“stacked” traits may be used, e.g., to create plants, plant parts or plant cells having a desired phenotype with the stacked traits (i.e., molecular stacking).
- Such stacked combinations in plants can also be created by other methods including, but not limited to, cross breeding plants by any conventional methodology (i.e., a breeding stack).
- the nucleotide sequences of interest can be combined at any time and in any order.
- a transgenic plant comprising one or more desired traits can be used as the target to introduce further traits by subsequent transformation.
- the additional nucleotide sequences can be introduced simultaneously in a co-transformation protocol with a nucleotide sequence, nucleic acid molecule, nucleic acid construct, or composition of this invention, provided by any combination of expression cassettes.
- two nucleotide sequences will be introduced, they can be incorporated in separate cassettes (trans) or can be incorporated on the same cassette (cis).
- Expression of polynucleotides can be driven by the same promoter or by different promoters. It is further recognized that polynucleotides can be stacked at a desired genomic location using a site-specific recombination system. See, e.g., Int'l Patent
- the expression cassette can also include an additional coding sequence for one or more polypeptides or double stranded RNA molecules (dsRNA) of interest for an agronomic trait (e.g ., an agronomic trait that is primarily of benefit to a seed company, grower or grain processor).
- agronomic trait e.g ., an agronomic trait that is primarily of benefit to a seed company, grower or grain processor.
- a polypeptide of interest can be any polypeptide encoded by a nucleotide sequence of interest.
- Non-limiting examples of polypeptides of interest that are suitable for production in plants include those resulting in agronomically important traits such as herbicide resistance (also sometimes referred to as“herbicide tolerance”), virus resistance, bacterial pathogen resistance, insect resistance, nematode resistance, or fungal resistance.
- the polypeptide of interest can be one that increases plant vigor or yield (including traits that allow a plant to grow at different temperatures, soil conditions and levels of sunlight and precipitation), or one that allows identification of a plant exhibiting a trait of interest (e.g., a selectable marker, seed coat color, etc.).
- Various polypeptides of interest, as well as methods for introducing these polypeptides into a plant are described, for example, in US Patent Nos. 4,761,373; 4,769,061; 4,810,648; 4,940,835; 4,975,374; 5,013,659;
- Polynucleotides conferring resistance/tolerance to an herbicide that inhibits the growing point or meristem, such as an imidazalinone or a sulfonylurea can also be suitable in some embodiments of the invention.
- Exemplary polynucleotides in this category code for mutant ALS and AHAS enzymes as described, e.g., in U.S. Patent Nos. 5,767,366 and 5,928,937.
- U.S. Patent Nos. 4,761,373 and 5,013,659 are directed to plants resistant to various imidazalinone or sulfonamide herbicides.
- 4,975,374 relates to plant cells and plants containing a nucleic acid encoding a mutant glutamine synthetase (GS) resistant to inhibition by herbicides that are known to inhibit GS, e.g. , phosphinothricin and methionine sulfoximine.
- GS glutamine synthetase
- U.S. Patent No. 5,162,602 discloses plants resistant to inhibition by cyclohexanedione and aryloxyphenoxypropanoic acid herbicides. The resistance is conferred by an altered acetyl coenzyme A carboxylase (ACCase).
- Polypeptides encoded by nucleotides sequences conferring resistance to glyphosate are also suitable for the invention. See, e.g., U.S. Patent No. 4,940,835 and U.S. Patent No. 4,769,061.
- U.S. Patent No. 5,554,798 discloses transgenic glyphosate resistant maize plants, which resistance is conferred by an altered 5-enolpyruvyl-3-phosphoshikimate (EPSP) synthase gene.
- EPP 5-enolpyruvyl-3-phosphoshikimate
- Polynucleotides coding for resistance to phosphono compounds such as glufosinate ammonium or phosphinothricin, and pyridinoxy or phenoxy propionic acids and cyclohexones are also suitable. See, European Patent Application No. 0 242 246. See also, U.S. Patent Nos. 5,879,903, 5,216,268 and 5,561,236.
- Other suitable polynucleotides include those coding for resistance to herbicides that inhibit photosynthesis, such as a triazine and a benzonitrile (nitrilase). See , U.S. Patent No. 4,810,648.
- polynucleotides coding for herbicide resistance include those coding for resistance to 2,2-dichloropropionic acid, sethoxydim, haloxyfop, imidazolinone herbicides, sulfonylurea herbicides, triazolopyrimidine herbicides, s-triazine herbicides and bromoxynil.
- Additional suitable polynucleotides include those coding for pesticidal (e.g, insecticidal)
- polypeptides are produced in amounts sufficient to control, for example, insect pests (i.e., insect controlling amounts).
- insect pests i.e., insect controlling amounts
- the polypeptide is a lepidopteran- active, coleopteran-active, hemipteran-active and/or dipteran-active polypeptide, or any combination thereof. It is recognized that the amount of production of a pesticidal polypeptide in a plant necessary to control insects or other pests may vary depending upon the cultivar, type of pest, environmental factors and the like.
- Polynucleotides useful for additional insect or pest resistance include, for example, those that encode toxins identified in Bacillus organisms.
- Polynucleotides comprising nucleotide sequences encoding Bacillus thuringiensis (Bt) Cry proteins from several subspecies have been cloned and recombinant clones have been found to be toxic to lepidopteran, dipteran and coleopteran insect larvae.
- Bt Bacillus thuringiensis
- Bt insecticidal proteins include the Cry proteins such as CrylAa, CrylAb, CrylAc, CrylB, CrylC, CrylD, CrylEa, CrylFa, Cry3A, Ciy9A, Ciy9B, Cry9C, and the like, as well as vegetative insecticidal proteins such as Vipl, Vip2, Vip3, and the like, and any combination of the foregoing Bt insecticidal proteins.
- Cry proteins such as CrylAa, CrylAb, CrylAc, CrylB, CrylC, CrylD, CrylEa, CrylFa, Cry3A, Ciy9A, Ciy9B, Cry9C, and the like
- vegetative insecticidal proteins such as Vipl, Vip2, Vip3, and the like, and any combination of the foregoing Bt insecticidal proteins.
- an additional polypeptide is an insecticidal polypeptide derived from a non- Bt source, including without limitation, an alpha-amylase, a peroxidase, a cholesterol oxidase, a patatin, a protease, a protease inhibitor, a urease, an alpha-amylase inhibitor, a pore-forming protein, a chitinase, a lectin, an engineered antibody or antibody fragment, a Bacillus cereus insecticidal protein, a Xenorhabdus spp. (such as A nematophila or A bovienii ) insecticidal protein, a
- Photorhabdus spp. such as P. luminescens or P. asymobiotica ) insecticidal protein, a Brevibacillus spp. (such as B. laterosporous) insecticidal protein, a Lysinibacillus spp. (such as L. sphearicus) insecticidal protein, a Chromobacterium spp. (such as C. subtsugae or C. foundedae ) insecticidal protein, a Yersinia spp. (such as Y. entomophagd) insecticidal protein, a Paenibacillus spp. (such as P.
- insecticidal protein a Clostridium spp. (such as C. bifermentans) insecticidal protein, a Pseudomonas spp. (such as P. fluorescen ) and a lignin.
- Clostridium spp. such as C. bifermentans
- Pseudomonas spp. such as P. fluorescen
- lignin a lignin
- Polypeptides that are suitable for production in plants further include those that improve or otherwise facilitate the conversion of harvested plants or plant parts into a commercially useful product, including, for example, increased or altered carbohydrate content or distribution, improved fermentation properties, increased oil content, increased protein content, improved digestibility, and increased nutraceutical content, e.g., increased phytosterol content, increased tocopherol content, increased stand content or increased vitamin content.
- Polypeptides of interest also include, for example, those resulting in or contributing to a reduced content of an unwanted component in a harvested crop, e.g., phytic acid, or sugar degrading enzymes. By“resulting in” or“contributing to” is intended that the polypeptide of interest can directly or indirectly contribute to the existence of a trait of interest (e.g., increasing cellulose degradation by the use of a heterologous cellulase enzyme).
- the polypeptide contributes to improved digestibility for food or feed.
- Xylanases are hemicellulolytic enzymes that improve the breakdown of plant cell walls, which leads to better utilization of the plant nutrients by an animal. This leads to improved growth rate and feed conversion. Also, the viscosity of the feeds containing xylan can be reduced. Heterologous production of xylanases in plant cells also can facilitate lignocellulosic conversion to fermentable sugars in industrial processing.
- a polypeptide useful for the invention can be a polysaccharide degrading enzyme. Plants of this invention producing such an enzyme may be useful for generating, for example, fermentation feedstocks for bioprocessing.
- enzymes useful for a fermentation process include alpha amylases, proteases, pullulanases, isoamylases, cellulases, hemicellulases, xylanases, cyclodextrin glycotransferases, lipases, phytases, laccases, oxidases, esterases, cutinases, granular starch hydrolyzing enzyme and other glucoamylases.
- Polysaccharide-degrading enzymes include: starch degrading enzymes such as alpha-amylases (EC 3.2.1.1), glucuronidases (E.C. 3.2.1.131); exo-l,4-alpha-D glucanases such as amyloglucosidases and glucoamylase (EC 3.2.1.3), beta-amylases (EC 3.2.1.2), alpha-glucosidases (EC 3.2.1.20), and other exo-amylases; starch debranching enzymes, such as a) isoamylase (EC 3.2.1.68), pullulanase (EC 3.2.1.41), and the like; b) cellulases such as exo-l,4-3-cellobiohydrolase (EC 3.2.1.91), exo-1,3- beta-D-glucanase (EC 3.2.1.39), beta-glucosidase (EC 3.2.1.21); c) L-
- Further enzymes which may be used with the invention include proteases, such as fungal and bacterial proteases.
- Fungal proteases include, but are not limited to, those obtained from Aspergillus, Trichoderma, Mucor and Rhizopus, such as A. niger, A. awamori, A. oryzae and M. miehei.
- the polypeptides of this invention can be cellobiohydrolase (CBH) enzymes (EC 3.2.1.91).
- the cellobiohydrolase enzyme can be CBH1 or CBH2.
- hemicellulases such as mannases and arabinofuranosidases (EC 3.2.1.55); ligninases; lipases (e.g., E.C. 3.1.1.3), glucose oxidases, pectinases, xylanases, transglucosidases, alpha 1,6 glucosidases (e.g., E.C. 3.2.1.20);
- esterases such as ferulic acid esterase (EC 3.1.1.73) and acetyl xylan esterases (EC 3.1.1.72); and cutinases (e.g., E.C. 3.1.1.74).
- Double stranded RNA (dsRNA) molecules useful with the invention include, but are not limited to those that suppress target pest (e.g., insect) genes.
- the dsRNA targets a gene in a lepidopteran, coleopteran, hemipteran or dipteran insect pest, or any combination of the foregoing.
- Gene suppression when taken together, are intended to refer to any of the well-known methods for reducing the levels of protein produced as a result of gene transcription to mRNA and subsequent translation of the mRNA. Gene suppression is also intended to mean the reduction of protein expression from a gene or a coding sequence including posttranscriptional gene suppression and transcriptional suppression. Posttranscriptional gene suppression is mediated by the homology between all or a part of a mRNA transcribed from a gene or coding sequence targeted for suppression and the corresponding double stranded RNA used for suppression, and refers to the substantial and measurable reduction of the amount of available mRNA available in the cell for binding by ribosomes.
- RNA interference RNA interference
- Transcriptional suppression is mediated by the presence in the cell of a dsRNA, a gene suppression agent, exhibiting substantial sequence identity to a promoter DNA sequence or the complement thereof to effect what is referred to as promoter trans suppression.
- Gene suppression may be effective against a native plant gene associated with a trait, e.g, to provide plants with reduced levels of a protein encoded by the native gene or with enhanced or reduced levels of an affected metabolite.
- Gene suppression can also be effective against target genes in plant pests that may ingest or contact plant material containing gene suppression agents, specifically designed to inhibit or suppress the expression of one or more homologous or complementary sequences in the cells of the pest.
- genes targeted for suppression can encode an essential protein, the predicted function of which is selected from the group consisting of muscle formation, juvenile hormone formation, juvenile hormone regulation, ion regulation and transport, digestive enzyme synthesis, maintenance of cell membrane potential, amino acid biosynthesis, amino acid degradation, sperm formation, pheromone synthesis, pheromone sensing, antennae formation, wing formation, leg formation, development and differentiation, egg formation, larval maturation, digestive enzyme formation, haemolymph synthesis, haemolymph maintenance, neurotransmission, cell division, energy metabolism, respiration, and apoptosis.
- the nucleic acids of the invention can further comprise, consist essentially of, or consist of a vector.
- the polynucleotides and expression cassettes of the invention are comprised within a vector.
- Vectors for use in transformation of plants and other organisms are well known in the art. Non-limiting examples of general classes of vectors include a plasmid, phage vector, phagemid vector, cosmid vector, fosmid, bacteriophage, artificial chromosome, or a viral vector.
- the vector is plant vector, e.g., for use in transformation of plants.
- the vector is a bacterial vector, e.g., for use in transformation of bacteria. Suitable vectors for plants, bacteria and other organisms are known in the art.
- the invention also encompasses a transgenic non-human host cell comprising a polynucleotide, a nucleic acid molecule, an expression cassette, a vector, or a polypeptide of the invention.
- the transgenic non-human host cell can include, but is not limited to, a plant cell (including a monocot cell and/or a dicot cell), a yeast cell, a bacterial cell or an insect cell.
- the invention provides a bacterial cell selected from the genera Bacillus, Brevibacillus, Clostridium, Xenorhabdus, Pholorhabdus, Pasteuria, Escherichia, Pseudomonas, Erwinia, Serratia, Klebsiella, Salmonella, Pasteurella, Xanthomonas, Streptomyces, Rhizobium, Rhodopseudomonas, Methylophilius, Agrobacterium, Acetobacter, Lactobacillus, Arthrobacter, Azotobacter, Leuconostoc, or Alcaligenes.
- the chimeric insecticidal proteins of the invention can be produced by expression of a polynucleotide encoding the same in a bacterial cell.
- a Bacillus thuringiensis cell comprising a polynucleotide encoding a chimeric insecticidal protein of the invention is provi ded.
- the transgenic plant cell is a dicot plant cell or a monocot plant cell.
- the dicot plant cell is a soybean cell, sunflower cell, tomato cell, cole crop cell, cotton cell, sugar beet cell or a tobacco cell.
- the monocot cell is a barley cell, maize cell, oat cell, rice cell, sorghum cell, sugar cane cell or wheat cell.
- the invention provides a plurality of dicot cells or monocot cells comprising a polynucleotide expressing a chimeric insecticidal protein of the invention.
- the plurality of cells are juxtaposed to form an apoplast and are grown in natural sunlight.
- the transgenic plant cell cannot regenerate a whole plant.
- an insecticidal protein of the invention is expressed in a
- transgenic plants expressing effective amounts of the insecticidal protein protect themselves from plant pests such as insect pests.
- plant pests such as insect pests.
- an insect starts feeding on such a transgenic plant, it ingests the expressed insecticidal protein. This can deter the insect from further biting into tire plant tissue or may even harm or kill the insect.
- a polynucleotide of the invention is inserted into an expression cassette, which is then stably integrated in the genome of the plant.
- the polynucleotide is included in a non-pathogenic self-replicating virus.
- a transgenic plant cell comprising a nucleic acid
- molecule or polypeptide of the invention is a cell of a plant part, a plant organ or a plant culture (each as described herein) including, but not limited to, a root, a leaf, a seed, a flower, a fruit, a pollen cell, organ or plant culture, and the like, or a callus cell or culture.
- a transgenic plant or plant cell in accordance with the invention may be a monocot or dicot plant or plant cell and includes, but is not limited to, corn (maize), soybean, rice, wheat, barley, rye, oat, sorghum, millet, sunflower, safflower, sugar beet, cotton, sugarcane, oilseed rape, alfalfa, tobacco, peanut, vegetable (including, sweet potato, bean, pea, chicory, lettuce, cabbage, cauliflower, broccoli, turnip, carrot, eggplant, cucumber, radish, spinach, potato, tomato, asparagus, onion, garlic, melon, pepper, celery, squash, pumpkin, zucchini, and the like), fruit (including, apple, pear, quince, plum, cheriy, peach, nectarine, apricot, strawberry, grape, raspberry, blackberry, pineapple, avocado, papaya, mango, banana, and the like), a specialty plant or plant cell (such as Arabidopsis), or a woody
- a plant or plant cell of the of the invention is a crop plant or plant cell such as maize, sorghum, wheat, sunflower, tomato, a crucifer, pepper, potato, cotton, rice, soybean, sugar beet, sugarcane, tobacco, barley, oilseed rape plant or plant cell, and the like.
- the invention further provides a part of a transgenic plant of the invention.
- the plant part comprises a chimeric insecticidal protein of the invention and/or a nucleic acid encoding the same.
- the invention further provides a seed of a transgenic plant of the invention or a seed that
- the seed comprises a chimeric insecticidal protein of the invention and/or a nucleic acid encoding the same.
- Additional embodiments of the invention include harvested products produced from the
- transgenic plants, plant parts or seed of the invention as well as a processed product produced from a harvested product.
- a harvested product can be a whole plant or any plant part, as described herein.
- non-limiting examples of a harvested product include a seed, a fruit, a flower or part thereof (e.g., an anther, a stigma, and the like), a leaf, a stem, and the like.
- a processed product includes, but is not limited to, a flour, meal, oil, starch, cereal, and the like produced from a harvested seed or other plant part of the invention.
- the harvested product or the processed product comprises a chimeric insecticidal protein of the invention and/or a nucleic acid encoding the same.
- the invention provides an extract from a transgenic plant, plant part or of the invention, optionally wherein the extract comprises a chimeric insecticidal protein of the invention and/or a nucleic acid encoding the same. Extracts from plants or plant parts can be made according to procedures well known in the art (See, de la Torre et al., Food, Agric. Environ. 2(1):84- 89 (2004); Guidet, Nucleic Acids Res. 22(9): 1772-1773 (1994); Lipton et al., Food Agric. Immun. 12: 153-164 (2000)).
- the chimeric insecticidal protein can function in the plant part, plant cell, plant organ, seed, harvested product, processed product or extract, and the like, as an insect control agent. In other words, the chimeric insecticidal protein can continue to perform the insecticidal function it had in the transgenic plant.
- the nucleic acid can function to express the chimeric insecticidal protein. As an alternative to encoding the insecticidal protein of the invention, the nucleic acid can function to identify a transgenic plant part, plant cell, plant organ, seed, harvested product, processed product or extract of the invention.
- a transgenic plant, plant part, plant cell, plant organ, or seed of the invention is hemizygous for a polynucleotide or expression cassette of the invention.
- a transgenic plant, plant part, plant cell, plant organ, or seed of the invention is homozygous for a polynucleotide or expression cassette of the invention.
- a transgenic plant, plant part, plant cell, plant organ, seed, harvested product, processed product or extract has increased resistance to one or more insect pests (e.g., a lepidopteran pest, such as fall armyworm) as compared with a suitable control that does not comprise a nucleic acid encoding an insecticidal protein of the invention.
- insect pests e.g., a lepidopteran pest, such as fall armyworm
- Procedures for transforming plants are well known and routine in the art and are described throughout the literature.
- Non-limiting examples of methods for transformation of plants include transformation via bacterial-mediated nucleic acid delivery (e.g., via Agrobacterium), viral-mediated nucleic acid delivery, silicon carbide or nucleic acid whisker-mediated nucleic acid delivery, liposome mediated nucleic acid delivery, microinjection, microparticle bombardment, calcium- phosphate-mediated transformation, cyclodextrin-mediated transformation, electroporation, nanoparticle-mediated transformation, sonication, infiltration, PEG-mediated nucleic acid uptake, as well as any other electrical, chemical, physical (mechanical) or biological mechanism that results in the introduction of nucleic acid into the plant cell, including any combination thereof.
- binary vectors or vectors carrying at least one T- DNA border sequence are generally suitable, whereas for direct gene transfer (e.g., particle bombardment and the like) any vector is suitable and linear DNA containing only the construction of interest can be used.
- direct gene transfer transformation with a single DNA species or co-transformation can be used (Schocher et al., Biotechnology 4: 1093- 1096 (1986)).
- a selectable marker that may be a positive selection (e.g., Phosphomannose Isomerase), provide resistance to an antibiotic (e.g. , kanamycin, hygromycin or methotrexate) or a herbicide (e.g. , glyphosate or glufosinate).
- antibiotic e.g. kanamycin, hygromycin or methotrexate
- a herbicide e.g. glyphosate or glufosinate
- the choice of selectable marker is not critical to the invention.
- Agrobacterium-mediated transformation is a commonly used method for transforming plants because of its high efficiency of transformation and because of its broad utility with many different species.
- Agrobacterium-med ated transformation typically involves transfer of the binary vector carrying the foreign DNA of interest to an appropriate Agrobacterium strain that may depend on the complement of vir genes carried by the host Agrobacterium strain either on a co-resident Ti plasmid or chromosomally (Uknes et al. (1993) Plant Cell 5: 159-169).
- the transfer of the recombinant binary vector to Agrobacterium can be accomplished by a triparental mating procedure using Escherichia coU carrying the recombinant binary vector, a helper E.
- the recombinant binary vector can be transferred to Agrobacterium by nucleic acid transformation (Hofgen & Willmitzer (1988) Nucleic Acids Res. 16:9877).
- Dicots as well as monocots may be transformed using Agrobacterium. Methods for transformation of Agrobacterium.
- Agrobacterium-mcd i ated transformation of rice include well known methods for rice transformation, such as those described in any of the following: European patent application EP 1198985 Al, Aldemita and Hodges (Planta 199: 612-617, 1996); Chan et al. (Plant Mol Biol 22 (3): 491-506,
- nucleic acids or the construct to be expressed is preferably cloned into a vector, which is suitable for transforming Agrobacterium tumefacien , for example pBinl9 (Bevan et al., Nucl. Acids Res. 12 (1984) 871 1).
- Agrobacteria transformed by such a vector can then be used in known manner for the transformation of plants, such as plants used as a model, like Arabidopsis or crop plants such as, by way of example, tobacco plants, for example by immersing bruised leaves or chopped leaves in an Agrobacterial solution and then culturing them in suitable media.
- plants used as a model like Arabidopsis or crop plants such as, by way of example, tobacco plants, for example by immersing bruised leaves or chopped leaves in an Agrobacterial solution and then culturing them in suitable media.
- the transformation of plants by means of Agrobacterium tumefaciens is described, for example, by Hagen and Willmitzer in Nucl. Acid Res. (1988) 16, 9877 or is known inter alia from F. F. White, Vectors for Gene Transfer in Higher Plants; in Transgenic Plants, Vol. 1, Engineering and Utilization, eds. S. D. Kung and R. Wu, Academic Press, 1993, pp. 15-38.
- Transformation of a plant by recombinant Agrobacterium usually involves co-cultivation of the Agrobacterium with explants from the plant and follows methods well known in the art. Transfonned tissue is regenerated on selection medium carrying an antibiotic or herbicide resistance marker between the binary plasmid T-DNA borders.
- the vector can be introduced into the cell by coating the particles with the vector containing the nucleic acid of interest.
- a cell or cells can be surrounded by the vector so that the vector is carried into the cell by the wake of the particle.
- Biologically active particles e.g., a dried yeast cell, a dried bacterium or a bacteriophage, each containing one or more nucleic acids sought to be introduced also can be propelled into plant tissue.
- a polynucleotide of the invention can be directly transformed into the plastid genome.
- a major advantage of plastid transformation is that plastids are generally capable of expressing bacterial genes without substantial modification, and plastids are capable of expressing multiple open reading frames under control of a single promoter. Plastid transformation technology is extensively described in U.S. Patent Nos. 5,451,513, 5,545,817, and 5,545,818, in PCT application no. WO 95/16783, and in McBride et al. (1994) Proc. Nati. Acad. Sci. USA 91, 7301-7305.
- the basic technique for chloroplast transformation involves introducing regions of cloned plastid DNA flanking a selectable marker together with the gene of interest into a suitable target tissue, e.g., using biolistics or protoplast transformation (e.g., calcium chloride or PEG mediated transformation).
- a suitable target tissue e.g., using biolistics or protoplast transformation (e.g., calcium chloride or PEG mediated transformation).
- the 1 to 1.5 kb flanking regions termed targeting sequences, facilitate homologous recombination with the plastid genome and thus allow the replacement or modification of specific regions of the plastome.
- point mutations in the chloroplast 16S rRNA and rpsl2 genes conferring resistance to spectinomycin or streptomycin can be utilized as selectable markers for transformation (Svab, Z., Hajdukiewicz, P., and Maliga, P. (1990) Proc. Natl. Acad. Sci. USA 87, 8526-8530; Staub, J. M., and Maliga, P. (1992) Plant Cell 4, 39-45).
- the presence of cloning sites between these markers allows creation of a plastid targeting vector for introduction of foreign genes (Staub, J.M., and Maliga, P. (1993) EMBO J. 12, 601-606).
- Substantial increases in transformation frequency can be obtained by replacement of the recessive rRNA or r-protein antibiotic resistance genes with a dominant selectable marker, tire bacterial aadA gene encoding the spectinomycin-cletoxifying enzyme aminoglycoside- 3'- adenyltransferase (Svab, Z., and Maliga, P. (1993) Proc. Natl. Acad. Sci. USA 90, 913-917).
- this marker had been used successfully for high-frequency transformation of the plastid genome of the green alga Chlamydomonas reinhardtii (Goldschmidt- Clermont, M. (1991) Nucl. Acids Res. 19:4083-4089).
- telomeres are inserted into a plastid-targeting vector and transformed into the plastid genome of a desired plant host.
- plants homoplastic for plastid genomes containing a nucleotide sequence of the invention can be obtained, which are capable of high expression of the polynucleotide.
- a recombinant vector of the invention also can include an expression cassette comprising a nucleotide sequence for a selectable marker, which can be used to select a transformed plant, plant part or plant cell.
- transfonned plant cells plant tissue culture or cultured protoplasts using any of a variety of known techniques. Plant regeneration from plant cells, plant tissue culture or cultured protoplasts is described, for example, in Evans et al. (Handbook of Plant Cell Cultures, Vol. 1, MacMilan
- the genetic properties engineered into the transgenic seeds and plants, plant parts, or plant cells of the invention described above can be passed on by sexual reproduction or vegetative growth and therefore can be maintained and propagated in progeny plants.
- maintenance and propagation make use of known agricultural methods developed to fit specific purposes such as harvesting, sowing or tilling.
- a polynucleotide therefore can be introduced into the plant, plant part or plant cell in any
- the respective polynucleotides can be assembled as part of a single nucleic acid molecule, or as separate nucleic acid molecules, and can be located on the same or different nucleic acid molecules. Accordingly, the polynucleotides can be introduced into the cell of interest in a single transformation event, in separate transformation events, or, for example, in plants, as part of a breeding protocol.
- a desired polynucleotide may be propagated in that species or moved into other varieties of the same species, particularly including commercial varieties, using traditional breeding techniques.
- the invention provides an insecticidal composition
- a insecticidal composition comprising a
- an “agriculturally-acceptable carrier” can include natural or synthetic, organic or inorganic material which is combined with the active protein to facilitate its application to or in the plant, or part thereof.
- agriculturally acceptable carriers include, without limitation, powders, dusts, pellets, granules, sprays, emulsions, colloids, and solutions.
- Agriculturally-acceptable carriers further include, but are not limited to, inert components, dispersants, surfactants, adjuvants, tackifiers, stickers, binders, or combinations thereof, that can be used in agricultural formulations.
- compositions can be applied in any manner that brings the pesticidal proteins or other pest control agents in contact with the pests. Accordingly, the compositions can be applied to the surfaces of plants or plant parts, including seeds, leaves, flowers, stems, tubers, roots, and the like.
- a plant producing an insecticidal protein of the invention in planta is an agriculturally- acceptable carrier of the expressed insecticidal protein.
- the compositions and agriculturally-acceptable carriers of the invention exclude transgenic plants.
- the insecticidal composition comprises a bacterial cell or a transgenic bacterial cell of the invention, wherein the bacterial cell or transgenic bacterial cell produces an insecticidal protein of the invention.
- an insecticidal composition can be prepared by desiccation, lyophilization, homogenization, extraction, filtration, centrifugation, sedimentation, or concentration of a culture of Bacillus thuringiensis ( Bl ), including a transgenic Bt culture.
- a composition of the invention may comprise at least about 1%, at least about 5%, at least about 10%, at least about 20%, at least about 25%, at least about 30%, at least about 35%, at least about 40%, at least about 50%, at least about 60%, at least about 70%, at least about 80%, at least about 90%, at least about 95%, at least about 97%, or at least 99% by weight a polypeptide of the invention.
- the composition comprises from about 1% to about 99% by weight of the insecticidal protein of the invention.
- insecticidal proteins of the invention can be used in combination with other pest control agents to increase pest target spectrum and/or for the prevention or management of insect resistance. Furthermore, the use of the insecticidal proteins of the invention in combination with an insecticidal agent which has a different mode of action or target a different receptor in the insect gut has particular utility for the prevention and/or management of insect resistance.
- the invention provides a composition that controls one or more plant pests (e.g . , an insect pest such as a lepidopteran insect pest, a coleopteran insect pest, a hemipteran insect pest and/or a dipteran insect pest), wherein the composition comprises a first pest control agent, which is a chimeric insecticidal protein of the invention and at least a second pest control agent that is different from the first pest control agent.
- insect pest e.g . , an insect pest such as a lepidopteran insect pest, a coleopteran insect pest, a hemipteran insect pest and/or a dipteran insect pest
- the composition comprises a first pest control agent, which is a chimeric insecticidal protein of the invention and at least a second pest control agent that is different from the first pest control agent.
- composition is a formulation for topical application to a plant.
- the composition is a transgenic plant.
- the composition is a combination of a formulation topically applied to a transgenic plant.
- the formulation comprises the first pest control agent, which is a chimeric insecticidal protein of the invention when the transgenic plant comprises the second pest control agent.
- the formulation comprises the second pest control agent when the transgenic plant comprises the first pest control agent, which is a chimeric insecticidal protein of the invention.
- the second pest control agent can be one or more of a chemical
- pesticide such as an insecticide, a Bacillus thuringiensis (Bt) insecticidal protein, and/or a non -Bt pesticidal agent including without limitation a Xenorhabdus insecticidal protein, a Photorhabdus insecticidal protein, a Brevibacillus laterosporus insecticidal protein, a Bacillus sphaericus insecticidal protein, a protease inhibitor (both serine and cysteine types), a lectin, an alpha-amylase, a peroxidase, a cholesterol oxidase, or a double stranded RNA (dsRNA) molecule.
- insecticide such as an insecticide, a Bacillus thuringiensis (Bt) insecticidal protein
- Bt insecticidal protein such as an insecticide, a Bacillus thuringiensis (Bt) insecticidal protein, and/or a non -Bt pesticidal agent including without limitation
- the second pest control agent is one or more chemical pesticides, which is optionally a seed coating.
- chemical pesticides include pyrethroids, carbamates, neonicotinoids, neuronal sodium channel blockers, insecticidal macrocyclic lactones, gamma-aminobutyric acid (GABA) antagonists, insecticidal ureas and juvenile hormone mimics.
- the chemical pesticide is one or more of abamectin, acephate, acetamiprid, amidoflumet (S-1955), avermectin, azadirachtin, azinphos-methyl, bifenthrin, binfenazate, buprofezin, carbofuran, chlorfenapyr, chlorfluazuron, chlorpyrifos, chlorpyrifos-methyl,
- chromafenozide clothianidin, cyfluthrin, beta-cyfluthrin, cyhalothrin, lambda-cyhalothrin, cypermethrin, cyromazine, deltamethrin, diafenthiuron, diazinon, diflubenzuron, dimethoate, diofenolan, emamectin, endosulfan, esfenvalerate, ethiprole, fenothicarb, fenoxycarb, fenpropathrin, fenproximate, fenvalerate, fipronil, flonicamid, flucythrinate, tau-fluvalinate, flufenerim (UR-50701), flufenoxuron, fonophos, halofenozide, hexaflumuron, imidacloprid, indoxacarb, isofenphos
- the chemical pesticide is selected from one or more of cypermethrin, cyhalothrin, cyfluthrin and beta-cyfluthrin, esfenvalerate, fenvalerate, tralomethrin, fenothicarb, methomyl, oxamyl, thiodicarb, clothianidin, imidacloprid, thiacloprid, indoxacarb, spinosad, abamectin, avermectin, emamectin, endosulfan, ethiprole, fipronil, flufenoxuron, triflumuron, diofenolan, pyriproxyfen, pymetrozine and amitraz.
- the second pest control agent can be one or more of any number of Bacillus thuringiensis insecticidal proteins including but not limited to a Cry protein, a vegetative insecticidal protein (VIP) and insecticidal chimeras of any of the preceding insecticidal proteins.
- Bacillus thuringiensis insecticidal proteins including but not limited to a Cry protein, a vegetative insecticidal protein (VIP) and insecticidal chimeras of any of the preceding insecticidal proteins.
- the second pest control agent is a Cry protein selected from: CrylAa, Cryl Ab, CrylAc, CrylAd, CrylAe, CrylAf, CrylAg, CrylAh, CrylAi, CrylAj, CrylBa, CrylBb, CrylBc, CrylBd, Cr l Be, CrylBf, CrylBg, CrylBh, CrylBi, CrylCa, CrylCb, CrylDa, CiylDb, CrylDc, CrylDd, CrylEa, CrylEb, Cryl Fa, CrylFb, CiylGa, CrylGb, CrylGc, CrylHa, CrylHb, CrylHc, Crylla, Cry lib, Cry lie, Cry lid, Cry lie, Cryllf, Cryllg, CrylJa, CiylJb, CiylJc, CiylJd, CrylKa, Cry
- Cry20Ba Cry21Aa, Ci 21Ba, Cry21Ca, Cry21 Da, Cry21Ea, Ciy21Fa, Cry21Ga, Cry 21 Ha, Cry22Aa, Cry22Ab, Cry22Ba, Cry22Bb, Ciy23Aa, Cry24Aa, Ciy24Ba, Cry24Ca, Ciy25Aa, Ciy26Aa, Cry27Aa, Cry28Aa, Ciy29Aa, Cry29Ba, Cry30Aa, Cry30Ba, Cry30Ca, Cry30Da, Cry30Db, Cry30Ea, Cry30Fa, Cry30Ga,Qy31Aa, Cry31Ab, Cry31Ac, Ciy31Ad, Cry32Aa, Cry32Ab,
- Cry34Ba Cry35Aa, Cry35Ab, Cry35Ac, Cry35Ba, Cry36Aa, Cry37Aa, Cry38Aa, Cry39Aa, Cry40Aa, Ciy40Ba, Cry40Ca, Cry40Da, Cry41Aa, Cry41Ab, Cry41Ba, Cry42Aa, Ci 43Aa, Cry43Ba, Ciy43Ca, Cry43Cb, Cry43Cc, Cry44Aa, Cry45Aa, Cry46Aa Cry46Ab, Cry47Aa,
- the Cry protein is a CrylFa, for example
- the second pest control agent is one or more Vip3 vegetative
- insecticidal proteins selected from Vip3Aal, Vip3Aa2, Vip3Aa3, Vip3Aa4, Vip3Aa5, Vip3Aa6, Vip3Aa7, Vip3Aa8, Vip3Aa9, Vip3Aal0, Vip3Aal 1, Vip3Aal2, Vip3Aal3, Vip3Aal4, Vip3Aal 5, Vip3Aal6 , Vip3Aal 7, Vip3Aal 8, Vip3Aal9, Vip3Aa20, Vip3Aa21, Yip3Aa22, Vip3Aa2 , Vip3Aa24, Yip3Aa25, Vip3Aa26, Vip3Aa27, Vip3Aa28, Vip3Aa29, Vip3Aa30, Yip3Aa31, Vip3Aa32, Vip3Aa33 , Vip3Aa34, Vip3Aa35, Vip3Aa36, Vip3Aa37
- the second pest control agent may be derived from sources other than B. thuringiensis .
- the second pest control agent can be an alpha-amylase, a peroxidase, a cholesterol oxidase, a patatin, a protease, a protease inhibitor, a urease, an alpha-amylase inhibitor, a pore-forming protein, a chitinase, a lectin, an engineered antibody or antibody fragment, a Bacillus cereus insecticidal protein, a Xenorhabdus spp. (such as X. nematophila or X.
- insecticidal protein a Photorhabdus spp. (such as P. luminescens or P. asymobioticd) insecticidal protein, a Brevibacillus spp. (such as B. laterosporous) insecticidal protein, a Lysinibacillus spp. (such as L. sphearicus) insecticidal protein, a Chromobacterium spp. (such as C. subtsugae or C. foundedae ) insecticidal protein, a Yersinia spp. (such as Y. entomophaga ) insecticidal protein, a Paenibacillus spp. (such as P.
- the second agent may be at least one insecticidal protein derived from an insecticidal toxin complex (Tc) from Photorhabdus, Xenorhabus, Serratia, or Yersinia.
- the insecticidal protein may be an ADP-ribosyltransferase derived from an insecticidal bacteria, such as
- the insecticidal protein may be a VIP protein, such as VIP1 and/or VIP2 from B. cereus.
- the insecticidal protein may be a binaiy toxin derived from an insecticidal bacteria, such as ISP1A and ISP2A from B. laterosporous or BinA and BinB from L. sphaericus.
- the insecticidal protein may be engineered or may be a hybrid or chimera of any of the preceding insecticidal proteins.
- the second pesticidal agent can be non-proteinaceous, for example, an interfering RNA molecule such as a dsRNA, which can be expressed transgenically or applied as part of a composition ( e.g. , using topical methods).
- An interfering RNA typically comprises at least a RNA fragment against a target gene, a spacer sequence, and a second RNA fragment which is complementary to the first, so that a double-stranded RNA structure can be formed.
- RNA interference occurs when an organism recognizes double-stranded RNA (dsRNA) molecules and hydrolyzes them.
- the resulting hydrolysis products are small RNA fragments of about 19-24 nucleotides in length, called small interfering R As (siRNAs).
- siRNAs then diffuse or are carried throughout the organism, including across cellular membranes, where they hybridize to mRNAs (or other RNAs) and cause hydrolysis of the RNA.
- Interfering RNAs are recognized by the RNA interference silencing complex (RISC) into which an effector strand (or“guide strand”) of the RNA is loaded. This guide strand acts as a template for the recognition and destruction of the duplex sequences.
- RISC RNA interference silencing complex
- Interfering RNAs are known in the art to be useful for insect control (see, for example, publication WO2013/192256, incorporated by reference herein).
- An interfering RNA designed for use in insect control produces a non-naturally occurring double-stranded RNA, which takes advantage of the native RN Ai pathways in the insect to trigger down-regulation of target genes that may lead to the cessation of feeding and/or growth and may result in the death of the insect pest.
- the interfering RNA molecule may confer insect resistance against the same target pest as the protein of the invention, or may target a different pest.
- the targeted insect plant pest may feed by chewing, sucking, or piercing.
- Interfering RNAs are known in the art to be useful for insect control.
- the dsRNA useful for insect control is described in US Provisional Application Nos. 62/371 ,259, 62/371 ,261, or 62/371,262, filed on August 5, 2016.
- the dsRNA useful for insect control is described in U.S. Patent Nos. 9,238,8223, 9,340, 797, or 8,946,510.
- the dsRNA useful for insect control is described in U.S. Patent Application Nos.
- the interfering RNA may confer resistance against a non-insect plant pest, such as a nematode pest or a virus pest.
- the first insect control agent which is a chimeric insecticidal protein of the invention and the second pest control agent are co-expressed in a transgenic plant.
- This co-expression of more than one pesticidal principle in the same transgenic plant can be achieved by genetically engineering a plant to contain and express the nucleic acid sequences encoding the insect control agents.
- the co-expression of more than one pesticidal agent in the same transgenic plant can be achieved by making a single recombinant vector comprising coding sequences of more than one pesticidal agent in a“molecular stack” and genetically engineering a plant to contain and express all the pesticidal agents in the transgenic plant.
- Such molecular stacks may be also be made by using mini-chromosomes as described, for example in US Patent 7,235,716.
- a plant, Parent 1 can be genetically engineered for the expression of the chimeric insecticidal protein of the invention.
- a second plant, Parent 2 can be genetically engineered for the expression of a second pest control agent. By crossing Parent 1 with Parent 2, progeny plants are obtained which express both insect control agents from Parents 1 and 2.
- the invention provides a stacked transgenic plant resistant to plant pest infestation comprising a nucleic acid (e.g., DNA) sequence encoding a dsRNA for suppression of an essential gene in a target pest and a nucleic acid e.g., (DNA) sequence encoding a chimeric insecticidal protein of the invention exhibiting insectidical activity against the target pest.
- a nucleic acid e.g., DNA
- DNA nucleic acid
- DNA nucleic acid
- DNA nucleic acid sequence e.g., (DNA) sequence encoding a chimeric insecticidal protein of the invention exhibiting insectidical activity against the target pest.
- a chimeric insecticidal protein of the invention acts to transiently reduce the midgut pH which serves to stabilize the co ingested dsRNA rendering the dsRNA effective in silencing the target genes.
- Transgenic plants or seed comprising and/or expressing an insecticidal protein of the invention can also be treated with an insecticide or insecticidal seed coating as described in U. S. Patent Nos. 5,849,320 and 5,876,739.
- insecticide or insecticidal seed coating and the transgenic plant or seed of the invention are active against the same target insect, for example a lepidopteran pest (e.g. , fall army worm)
- the combination is useful (i) in a method for further enhancing activity of the composition of the invention against the target insect, and/or (ii) in a method for preventing development of resistance to the composition of the invention by providing yet another mechanism of action against the target insect.
- the invention provides a method of enhancing control of a lepidopteran insect population comprising providing a transgenic plant or seed of the invention and applying to the plant or the seed an insecticide or insecticidal seed coating to a transgenic plant or seed of the invention.
- insecticide or insecticidal seed coating is active against a different insect
- the insecticide or insecticidal seed coating is useful to expand the range of insect control, for example by adding an insecticide or insecticidal seed coating that has activity against coleopteran insects to a transgenic seed of the invention, which, in some embodiments, has activity against lepidopteran insects, the coated transgenic seed produced controls both lepidopteran and coleopteran insect pests.
- the invention also encompasses methods of producing an insect-resistant (e.g. , a lepidopteran insect-resistant) transgenic plant.
- the method comprises: introducing into a plant a polynucleotide, expression cassette or vector of the invention comprising a nucleotide sequence that encodes a chimeric insecticidal protein of the invention (including toxin fragments and modified forms that are substantially identical to the polypeptides specifically disclosed herein), wherein the nucleotide sequence is expressed in the plant to produce the chimeric insecticidal protein of the invention, thereby conferring to the plant resistance to the insect pest, and producing an insect- resistant transgenic plant (e.g. , as compared with a suitable control plant, such as a plant that does not comprise the polynucleotide, expression cassette or vector of the invention and/or does not express a polypeptide of the invention).
- a suitable control plant such as a plant that does not comprise the polynucleotide, expression cassette or vector of the invention
- the method of introducing the polynucleotide, expression cassette or vector of the invention into the plant comprises first transforming a plant cell with the polynucleotide, expression cassette or vector and regenerating a transgenic plant therefrom, where the transgenic plant comprises the polynucleotide, expression cassette or vector and expresses the chimeric insecticidal protein of the invention.
- the introducing step can comprise crossing a first plant comprising the polynucleotide, expression cassette or vector with a second plant (e.g., a different plant from the first plant, for example, a plant that does not comprise the polynucleotide, expression cassette or vector) and, optionally, producing a progeny plant that comprises the polynucleotide, expression cassette or vector and expresses a chimeric insecticidal protein of the invention, thereby resulting in increased resistance to at least one insect pest.
- a second plant e.g., a different plant from the first plant, for example, a plant that does not comprise the polynucleotide, expression cassette or vector
- a progeny plant that comprises the polynucleotide, expression cassette or vector and expresses a chimeric insecticidal protein of the invention, thereby resulting in increased resistance to at least one insect pest.
- a transgenic plant of the invention encompasses a plant that is the direct result of a transformation event and the progeny thereof (of any generation) that comprise the polynucleotide, expression cassette or vector and optionally expresses the chimeric insecticidal protein resulting in increased resistance to at least one insect pest.
- the invention further provides a method of identifying a transgenic plant of the invention, the method comprising detecting the presence of a polynucleotide, expression cassette, vector or chimeric insecticidal protein of the invention in a plant (or a plant cell, plant part, and the like derived therefrom), and thereby identifying the plant as a transgenic plant of the invention based on the presence of the polynucleotide, expression cassette, vector or chimeric insecticidal protein of the invention.
- the invention further provides a method of producing a transgenic plant with increased
- transgenic plants produced by the methods of the invention comprise a polynucleotide, expression cassette or vector of the invention.
- a transgenic plant produced by the methods of the invention comprise a chimeric insecticidal protein of the invention and, optionally have increased resistance to at least one insect pest.
- the methods of producing a transgenic plant described herein optionally comprise a further step of harvesting a seed from the transgenic plant, where the seed comprises the polynucleotide, expression cassette or vector and produces the chimeric insecticidal protein.
- the seed produces a further transgenic plant that comprises the polynucleotide, expression cassette or vector and produces the chimeric insecticidal protein, and thereby has increased resistance to at least one insect pest.
- the invention further provides plant parts, plant cells, plant organs, plant cultures, seed, plant extracts, harvested products and processed products of the transgenic plants produced by the methods of the invention.
- the invention also provides a method of producing seed, the method
- transgenic plant comprising: providing a transgenic plant that comprises a polynucleotide, expression cassette or vector of the invention, and harvesting a seed from the transgenic plant, wherein the seed comprises the polynucleotide, expression cassette, vector and produces the chimeric insecticidal protein.
- the seed produces a further transgenic plant that comprises the polynucleotide, expression cassette or vector and produces the chimeric insecticidal protein, and thereby has increased resistance to at least one insect pest.
- the step of providing the transgenic plant comprises planting a seed that produces the transgenic plant.
- the invention further provides a method of producing a hybrid plant seed, the method
- the method further comprises harvesting a hybrid seed.
- the hybrid seed comprises the polynucleotide, expression cassette or vector of the invention, and in embodiments may further comprise a chimeric insecticidal protein of the invention and have increased resistance to an insect pest.
- the hybrid seed produces a transgenic plant that comprises the polynucleotide, expression cassette or vector of the invention, expresses the chimeric insecticidal protein of the invention, and has increased resistance to at least one insect pest.
- a transgenic plant of the invention is resistant to at least one lepidopteran insect pest (as described herein).
- the transgenic plant controls a fall armywonn insect pest or colony that is resistant to a Vip3 A (e.g., a Vip3Aa protein, for example, as expressed in maize event MIR162) and/or CrylF protein (e.g., a CrylFa protein, for example, as expressed in maize event TCI 507).
- Vip3 A e.g., a Vip3Aa protein, for example, as expressed in maize event MIR162
- CrylF protein e.g., a CrylFa protein, for example, as expressed in maize event TCI 507.
- a method of controlling at least one insect pest comprises providing a chimeric insecticidal protein of the invention.
- the method comprises delivering (e.g, orally delivering) to the insect pest or an environment thereof an effective amount of a chimeric insecticidal protein of the invention.
- the polypeptide is orally ingested by the insect.
- the chimeric insecticidal protein can be delivered to the insect in many recognized ways.
- the ways to deliver a protein orally to an insect include, but are not limited to, providing the protein (1) in a transgenic plant, wherein the insect eats (ingests) one or more parts of the transgenic plant, thereby ingesting the polypeptide that is expressed in the transgenic plant; (2) in a formulated protein composition(s) that can be applied to or incorporated into, for example, insect growth media; (3) in a protein composition(s) that can be applied to the surface, for example, sprayed, onto the surface of a plant part, which is then ingested by the insect as the insect eats one or more of the sprayed plant parts; (4) a bait matrix; or (5) any other art-recognized protein delivery system.
- any method of oral delivery to an insect can be used to deliver the toxic proteins of the invention.
- the chimeric insecticidal protein of the invention is delivered orally to an insect, for example, where the insect ingests one or more parts of a transgenic plant of the invention.
- the insecticidal protein of the invention is delivered orally to an insect, wherein the insect ingests one or more parts of a plant sprayed with a composition comprising the insecticidal protein of the invention.
- Delivering the composition of the invention to a plant surface can be done using any method known to those of skill in the art for applying compounds, compositions, fonnulations and the like to plant surfaces.
- Some non-limiting examples of delivering to or contacting a plant or part thereof include spraying, dusting, sprinkling, scattering, misting, atomizing, broadcasting, soaking, soil injection, soil incorporation, drenching (e.g, root, soil treatment), dipping, pouring, coating, leaf or stem infiltration, side dressing or seed treatment, and the like, and combinations thereof.
- spraying dusting, sprinkling, scattering, misting, atomizing, broadcasting, soaking, soil injection, soil incorporation, drenching (e.g, root, soil treatment), dipping, pouring, coating, leaf or stem infiltration, side dressing or seed treatment, and the like, and combinations thereof.
- the invention provides a method of controlling a lepidopteran insect pest that is resistant to a Vip3A protein (e.g, a Vip3Aa protein, for example, as expressed by maize event MIR162) and/or a CrylF protein (e.g. a CrylFa protein, for example, as expressed by maize event TCI 507) comprising delivering to the lepidopteran insect or an environment thereof an effective amount of a chimeric insecticidal protein or composition of the invention.
- the resistant insect pest is a resistant fall armyworm insect pest or colony.
- the invention provides a method of preventing the development of resistance in a population of a target lepidopteran insect pest to a Vip3A (e.g., a Vip3Aa protein, for example, as expressed by maize event MIR162) and/or CrylF (e.g.
- a Vip3A e.g., a Vip3Aa protein, for example, as expressed by maize event MIR162
- CrylF e.g.
- a CrylFa protein for example, as expressed by maize event TCI 507 protein expressed in a transgenic plant, the method comprising delivering to the target population a transgenic plant comprising a polynucleotide comprising a nucleotide sequence encoding a Vip3A protein and/or a nucleotide sequence encoding a CrylF protein; and a polynucleotide expression cassette or vector of the invention expressing a chimeric insecticidal protein of the invention.
- the target lepidopteran insect pest is fall army worm.
- the transgenic plant can comprise a breeding stack of two or more of the insecticidal traits, a molecular stack of two or more of the insecticidal traits, or a combination of both.
- the invention encompasses a method of providing a farmer with a means of controlling an insect pest (e.g. , a lepidopteran pest, such as fall armyworm), the method comprising supplying or selling to the farmer plant material such as a seed, the plant material comprising a polynucleotide, expression cassette, vector capable of expressing a chimeric insecticidal protein of the invention.
- the plant material comprises the chimeric insecticidal protein of the invention and, optionally, has increased resistance to at least one insect pest.
- the plant material is a seed
- a plant grown from the seed comprises the polynucleotide, expression cassette or vector of the invention, expresses a chimeric insecticidal protein of the invention, and has increased resistance to the at least one insect pest.
- the invention provides methods of producing a chimeric insecticidal protein toxic to a lepidopteran pest.
- a method comprises, culturing a transgenic non-human host cell that comprises a polynucleotide, expression cassette or vector of the invention that expresses a chimeric insecticidal protein of the invention under conditions in which the host cell produces the chimeric insecticidal protein that is toxic to the lepidopteran pest.
- the transgenic non-human host cell is a plant cell. In some other embodiments, the plant cell is a maize cell. In other embodiments, the conditions under which the plant cell or maize cell are grown include natural sunlight. In other embodiments, the transgenic non-human host cell is a bacterial cell. In still other embodiments, the transgenic non-human host cell is a yeast cell. [00304] In some embodiments, the methods of the invention provide control of at least one lepidopteran insect pest, including without limitation, one or more of the following: Ostrinia spp. such as O. nubilalis (European com borer) and/or O. furnacalis (Asian com borer); Plutella spp. such as P.
- Ostrinia spp. such as O. nubilalis (European com borer) and/or O. furnacalis (Asian com borer)
- Plutella spp. such as P.
- xylostella diamondback moth
- Spodoptera spp. such as S. frugiperda (fall annyworm), S. littoralis (Egyptian cotton leafworm), S. ornithogalli (yellowstriped annyworm), S. praefica (western yellowstriped annyworm), S. eridania (southern annyworm) and/or S. exigua (beet armywonn); Agrotis spp. such as A. ipsilon (black cutworm), A. segetum (common cutworm), A. gladiaria (claybacked cutworm), and/or A. orthogonia (pale western cutworm); Striacosta spp. such as S.
- H. zea com earworm
- H. punctigera native budworm
- // armigera cotton bollwonn
- Heliothis spp. such as H. virescens (tobacco budworm); Diatraea spp. such as D. grandiosella (southwestern com borer) and/or D. saccharalis (sugarcane borer); Trichoplusia spp. such as T. ni (cabbage looper); Sesamia spp. such as S. nonagroides (Meditenanean corn borer) and/or S.
- calamistis pink stem borer
- Pectinophora spp. such as P. gossypiella (pink bollwonn); Cochylis spp. such as C. hospes (banded sunflower moth); Manduca spp. such as M. sexta (tobacco hornworm) and/or M. quinquemaculata (tomato homworm); Elasmopalpus spp. such as E. lignosellus (lesser cornstalk borer); Pseudoplusia spp. such as P. includens (soybean looper); Anticarsia spp. such as A. gemmatalis (velvetbean caterpillar);
- Plathypena spp. such as P. scabra (green cloverworm); Pieris spp. such as P. brassicae (cabbage butterfly), Papaipema spp. such as P. nebris (stalk borer); Pseudaletia spp. such as P. unipuncta (common armyworm); Peridroma spp. such as P. saucia (variegated cutworm); Keiferia spp. such as K. lycopersicella (tomato pinwonn); Artogeia spp. such as A. rapae (imported cabbageworm);
- Phthorimaea spp. such as P. operculeUa (potato tuberworm); Chrysodeixis spp. Such as C. includes (soybean looper); Feltia spp. such as F. cutens (dingy cutworm); Chilo spp. such as C. suppressalis (striped stem borer), Cnaphalocrocis spp. such as C. medinalis (rice leaffolder), or any combination of the foregoing.
- the methods of the invention provide control of a fall armyworm insect pest or colony that is resistant to a Vip3A (e.g., a Vip3Aa protein, for example, as expressed in maize event MIR162) and/or CrylF protein (e.g., a Cry ] Fa protein, for example, as expressed in maize event TC1507).
- Vip3A e.g., a Vip3Aa protein, for example, as expressed in maize event MIR162
- CrylF protein e.g., a Cry ] Fa protein
- the invention also provides for uses of the chimeric insecticidal proteins, nucleic acids,
- transgenic plants, plant parts, seed and insecticidal compositions of the invention for example, to control an insect pest, such as a lepidopteran pest (as described herein).
- an insect pest such as a lepidopteran pest (as described herein).
- the invention provides a method of using a polynucleotide, expression cassette, vector or host cell of the invention to produce an insecticidal composition for controlling an insect pest (e.g., a lepidopteran insect pest).
- the invention provides a method of using a polynucleotide, expression cassette or vector of the invention to produce a transgenic seed, where the transgenic seed grows a transgenic plant with increased resistance to an insect pest.
- the invention also contemplates the use of a transgenic plant of the invention to produce a transgenic seed, which is optionally a hybrid seed.
- the invention provides a method of using a chimeric insecticidal protein, polynucleotide, expression cassette, vector, transgenic plant or insecticidal composition of the invention to prevent the development of resistance in a population of a target lepidopteran insect pest to a Vip3A protein and/or Cry IF protein (each as described herein).
- a chimeric insecticidal protein that is toxic to a lepidopteran insect pest comprising in an
- N-terminal to C-terminal direction (a) an N-terminal region of a first Cryl protein, which is an N- terminal region of a BT-0002 protein of SEQ ID NO:2 or an amino acid sequence that is at least 90% identical thereto, fused to (b) a C-terminal region of a different Cryl protein; wherein a crossover position between the first Cryl protein and the different Cryl protein is located in conserved block 3.
- Ciy 1 protein comprises an amino acid sequence selected from the group consisting of:
- chimeric insecticidal protein according to any one of statements 1 to 10, wherein the chimeric insecticidal protein comprises: (a) the amino acid sequence from position 1 to 597 of any one of SEQ ID NOs: 4, 5, 10, 11, 12, 13 and 14 or a toxin fragment thereof, or (b) an amino acid sequence that is at least 80% identical to the amino acid sequence of (a).
- chimeric insecticidal protein according to any one of statements 1 to 1 1, wherein the chimeric insecticidal protein comprisesr(a) the amino acid sequence of any one of SEQ ID NOs: 4, 5, 10, 1 1, 12, 13 and 14 or a toxin fragment thereof; or (b) an amino acid sequence that is at least 80% identical to the amino acid sequence of (a).
- chimeric insecticidal protein according to any one of statements 1 to 10, wherein the chimeric insecticidal protein comprises:(a) the amino acid sequence from positions 1 to 603 of any one of SEQ ID NOs : 7, 8, 9, 15 , 16 and 17 or a toxin fragment thereof; or (b) an amino acid sequence that is at least 80% identical to the amino acid sequence of (a).
- chimeric insecticidal protein comprises: (a) the amino acid sequence of any one of SEQ ID NOs: 7, 8, 9, 15, 16 and 17 or a toxin fragment thereof; or (b) an amino acid sequence that is at least 80% identical to the amino acid sequence of (a).
- chimeric insecticidal protein according to any one of statements 1 to 15, wherein the chimeric insecticidal protein has insecticidal activity against one or more of Spodoptera frugiperda (fall armyworm), Chrysodeixis includes (soybean looper), Diatraea saccharalis (sugarcane borer), Diatraea grandiosella (southwest com borer), and Agrotis ipsilon (black cutworm).
- Spodoptera frugiperda fall armyworm
- Chrysodeixis includes (soybean looper), Diatraea saccharalis (sugarcane borer), Diatraea grandiosella (southwest com borer), and Agrotis ipsilon (black cutworm).
- a polynucleotide comprising a nucleotide sequence encoding the chimeric insecticidal protein according to any one of statements 1 to 17.
- polynucleotide according to statement 18 or statement 19 wherein the polynucleotide comprises a nucleotide sequence that comprises: (a) a nucleotide sequence of any one of SEQ ID NOs: 19-33 or a toxin-encoding fragment thereof; (b) a nucleotide sequence that is substantially identical to the nucleotide sequence of (a); or (c) a nucleotide sequence that anneals under stringent hybridization conditions to the nucleotide sequence of (a) or (b); or (d)
- nucleotide sequence that differs from the nucleotide sequence of (a), (b) or (c) due to the degeneracy of the genetic code.
- a nucleic acid molecule comprising the polynucleotide according to any one of
- a vector comprising the polynucleotide according to any one of statements 18 to 21 or the nucleic acid molecule according to statement 22 or statement 23.
- a transgenic cell comprising the polynucleotide according to any one of statements 18 to 21, the nucleic acid molecule according to statement 22 or statement 23, or the vector according to statement 24.
- a monocot cell optionally a barley cell, a maize cell, an oat cell, a rice cell, a sorghum cell, a sugarcane cell or a wheat cell; or (ii) a dicot cell, optionally a soybean cell, a sunflower cell, a tomato cell, a cole crop cell, a cotton cell, a sugar beet cell or a tobacco cell.
- a transgenic plant comprising the transgenic plant cell according to statement 27 or statement 28.
- tire plant is:(i) a monocot plant, optionally a barley plant, a maize plant, an oat plant, a rice plant, a sorghum plant, a sugarcane plant or a wheat plant; or (ii) a dicot plant, optionally a soybean plant, a sunflower plant, a tomato plant, a cole crop plant, a cotton plant, a sugar beet plant or a tobacco plant.
- transgenic plant part according to statement 32 or the transgenic seed according to statement 33, wherein the harvested product comprises the chimeric insecticidal protein.
- acceptable carrier is a powder, a dust, a pellet, a granule, a spray, an emulsion, a colloid or a solution.
- composition according to any one of statements 36 to 38, wherein the composition comprises a transgenic bacterial cell that produces the chimeric insecticidal protein.
- composition according to any one of statements 36 to 39, wherein the composition comprises from about 1 % to about 99% by weight of the chimeric insectidical protein.
- a method of producing a transgenic plant with increased resistance to a lepidopteran insect pest comprising introducing into a plant the polynucleotide of any one of statements 18 to 21, the nucleic acid molecule of statement 22 or statement 23, or the vector of statement 24, wherein the chimeric insecticidal protein is expressed in the plant, thereby producing a transgenic plant with increased resistance to an insect pest.
- the method comprises obtaining a progeny plant from the transgenic plant, wherein the progeny plant comprises the polynucleotide, the nucleic acid molecule or the vector and has increased resistance to an insect pest.
- a method of producing a transgenic plant with increased resistance to a lepidopteran insect pest comprising: (a) planting a seed comprising the polynucleotide according to any one of statements 18 to 21, the nucleic acid molecule according to statement 22 or statement 23, or the vector according to statement 24; and (b) growing a transgenic plant from the seed, wherein the transgenic plant comprises the polynucleotide, nucleic acid molecule or vector and produces the chimeric insecticidal protein.
- a method of producing a seed comprising: (a) providing a transgenic plant that comprises the polynucleotide according to any one of statements 18 to 21, the nucleic acid molecule according to statement 22 or statement 23, or the vector according to statement 24; and (b) harvesting a seed from the transgenic plant of (a), wherein the harvested seed comprises the chimeric insecticidal protein.
- a method of producing a hybrid plant seed comprising: (a) crossing a first inbred plant, which is a transgenic plant comprising the polynucleotide according to any one of statements 18 to 21, the nucleic acid molecule according to statement 22 or statement 23, or the vector according to statement 24, with a different inbred plant; and (b) allowing a hybrid seed to form.
- a method of controlling a lepidopteran insect pest comprising delivering to the insect pest or an environment thereof a composition comprising an effective amount of the chimeric insecticidal protein of any one of statements 1 to 17 or the insecticidal composition of any one of statements 36 to 41.
- a method of controlling a lepidopteran insect pest resistant to a Vip3A protein and/or a Cry IF protein comprising delivering to the resistant lepidopteran insect pest or an environment thereof the insecticidal protein of any one of statements 1 to 17 or the insecticidal composition of any one of statements 36 to 41 .
- a method of reducing the development of resistance to a Vip3 A protein and/or a Cry 1 F protein in a population of a target lepidopteran insect pest comprising delivering to the target population or an environment thereof a transgenic plant comprising: (i) the polynucleotide according to any one of statements 18 to 21 , the nucleic acid molecule according to statement 22 or statement 23, or the vector according to statement 24; and (ii) a polynucleotide comprising a nucleotide sequence encoding a Vip3A protein and/or a nucleotide sequence encoding a Cry I F protein; wherein the chimeric insecticidal protein and the Vip3A protein and/or the Cry I F protein are produced in the transgenic plant.
- the lepidopteran insect pest includes one or more of Spodoptera frugiperda (fall armyworm), Chrysodeixis includes (soybean looper), Diatraea saccharalis (sugarcane borer), Diatraea grandiosella (southwest com borer) and Agrotis ipsilon (black cutworm).
- Spodoptera frugiperda fall armyworm
- Chrysodeixis includes (soybean looper), Diatraea saccharalis (sugarcane borer), Diatraea grandiosella (southwest com borer) and Agrotis ipsilon (black cutworm).
- the lepidopteran insect pest includes a Spodoptera frugiperda (fall armyworm) that is resistant to a Vip3 A protein and/or a Cry IF protein.
- a monocot plant optionally a barley plant, a maize plant, an oat plant, a rice plant, a sorghum plant, a sugarcane plant or a wheat plant; or (ii) a dicot plant, optionally a soybean plant, a sunflower plant, a tomato plant, a cole crop plant, a cotton plant, a sugar beet plant or a tobacco plant.
- EEB European com borer
- BCW black cutworm
- CEW corn earworm
- SWCB Sugarcane borer
- SWCB Diatraea grandioselld
- WBCW silk bean caterpillar
- VBC velvet bean caterpillar
- TW tobacco budworm
- Table 1 Insecticidal activity of BT-0022 and BT-0002 against various Lepidopteran insects.
- a protein engineering approach was used in an effort to try to enhance the FAW activity of BT- 0002.
- BT-0002 as a template, multiple engineered proteins were designed by replacing domain III (Dill) of BT-0002 with a domain III from a different Cry protein.
- Table 2 illustrates fifteen chimeric proteins with their domain composition infonnation.
- Table 3 provides the sequence information for the full-length protein sources.
- cDNAs encoding the engineered proteins were synthesized by Genewiz (South Plainfield, NJ) and cloned into a Bacillus thuringiensis (Bt) expression vectors containing a Ciy 1 Ac promoter and no terminator or a Cry3 promoter and no terminator.
- the plasmid DNAs were introduced into Bt strain AB227 via an electroporation-mediated transformation procedure. Twelve engineered proteins were produced as crystal proteins in Bt.
- the crystal proteins were purified from the cultures and dissolved in a buffer containing 50 mM Na2CC>3 pH 11.0, 2 mM DTT. Each soluble protein was then evaluated in an insect bioassay.
- insecticidal activity of the chimeric Bt2-Bt22 V1-V6 and Bt2-lFa V1 -V6 proteins was examined by an artificial diet based insect bioassay in which the solubilized crystal proteins were overlaid on the surface of artificial insect diet, with a final concentration of 0 - 3.2 pg/cm2.
- the buffer 50 mM Na2CC> 3 pH 11.0, 2 mM DTT
- Full-length CrylFa protein (SEQ ID NO: 3) was used as a positive control for FAW activity. Each chimeric protein was tested in duplicate. Insect mortality was assessed on day 7.
- the Bt2-lFa chimeric proteins all showed good insecticidal activity against FAW with V5 (SEQ ID NO: 16) and V6 (SEQ ID NO: 17) performing the best while the Bt2-Bt22 chimeras showed less insecticidal activity, with V2 (SEQ ID NO: 5) and V3 (SEQ ID NO: 6) performing the best.
- V5 SEQ ID NO: 16
- V6 SEQ ID NO: 17
- V2 SEQ ID NO: 5
- V3 V3
- Example 1 Twelve of the chimeric proteins described in Example 1 (Bt2-Bt22 V1-V6 and Bt2-lFa V1-V6) were examined for their insecticidal activities against the following lepidopteran pests using art- recognized artificial diet bioassay methods: sugarcane borer (SCB; Diatraea saccharlis), soiled corn borer (SWCB: Diatraea grandiosella), soybean looper (SBL; Pseudoplusia includens), com earworm (CEW; Helicoverpa zed), tobacco budworm (TBW; Heliothis virescens), black cutworm (BCW; Agrotis ipsilon ) and European com borer (ECB; Ostrinia nubilalis).
- SCB sugarcane borer
- SWCB southwestern corn borer
- SBL soybean looper
- CEW Com earworm
- TW Heliothis virescens
- BCW Agrotis ipsilon
- Bt2-Bt22 V2ml SEQ ID NO: 10, variant with single amino acid change to increase protein expression level
- Bt2-Bt22 V3m l SEQ ID NO: 1 1, variant with single amino acid change to increase protein expression level
- Bt2-lFa V5 and Bt2-lFa V6 were produced as described in Example 1, and the crystal proteins were isolated and purified.
- the purified proteins were tested for efficacy against a strain of FAW that is resistant to the insecticidal toxin CrylFa.
- a diet-overlay assay was performed with various doses of each purified toxin (2000 and 4000 ng/cm2), essentially as described in Example 1.
- Vip3A protein positive control
- the two negative control treatments were PBS and Buffer 1.
- a FAW population that is susceptible to either CrylFa or Vip3A, i.e. FAW susceptible strain was also tested. Each protein was tested in duplicates. Insecticidal activity was assessed as effective mortality on day 7 (larvae that have growth inhibition and are moribund are counted as effectively dead).
- the purified proteins were tested for efficacy against a strain of FAW that is resistant to the insecticidal toxin Vip3A.
- a diet-overlay assay was performed essentially as described in Example 1.
- Vip3A protein was dissolved in PBS and the other proteins in Buffer 1 (50 mM Na2C0 3 /NaHCC> 3 , pH 1 1, 2 mM DTT).
- the two negative control treatments were PBS and Buffer 1.
- CrylFa proteins was used as a positive control for the Vip3A-resistant FAW strain. Each protein was tested in duplicate. Insecticidal activity was assessed as effective mortality on day 7 (larvae that have growth inhibition and are moribund are scored as effectively dead).
- Vip3A-resistant FAW strain was not controlled by Vip3A, demonstrating that the strain is resistant to this toxin (Table 8).
- Bt2-Bt22 V3ml, Bt2-lFa V5 and V6 demonstrated a high degree of efficacy against the Vip3A-resistant FAW suggesting that the mode of action of these two chimeric proteins against resistant FAW is different from the mode of action of a Vip3A protein.
- a first and second expression cassette was made comprising a maize ubiquitin promoter (Ubil) operably linked to a chimeric coding sequence which was operably linked to a maize ubiquitin terminator and a third expression cassette was made comprising a Ubil promoter operably linked to a phosphomannose isomerase (PMI) coding sequence which was operably linked to a Ubi terminator.
- Ubil maize ubiquitin promoter
- PMI phosphomannose isomerase
- Agrobacterium strain LBA4404 comprising an expression vector expressing Bt29-Bt22 or Bt29-CrylFa is grown on YEP (yeast extract (5 g/L), peptone (1 Og/L), NaCl (5g/L), 15g/l agar, pH 6.8) solid medium for 2- 4 days at 28°C. Approximately 0.8X 10 9 Agrobacterium cells are suspended in LS-inf media supplemented with 100 mM As. Bacteria are pre-induced in this medium for approximately 30-60 minutes.
- Immature embryos from an inbred maize line are excised from 8-12 day old ears into liquid LS- inf + 100 mM As. Embryos are rinsed once with fresh infection medium. Agrobacterium solution is then added and embryos are vortexed for 30 seconds and allowed to settle with the bacteria for 5 minutes. The embryos are then transferred scutellum side up to LSAs medium and cultured in the dark for two to three days. Subsequently, between approximately 20 and 25 embiyos per petri plate are transferred to LSDc medium supplemented with cefotaxime (250 mg/1) and silver nitrate (1.6 mg/1) and cultured in the dark at approximately 28°C for 10 days.
- Immature embiyos, producing embryogenic callus are transferred to LSD1M0.5S medium. The cultures are selected on this medium for approximately 6 weeks with a subculture step at about 3 weeks. Surviving calli are transferred to Regl medium supplemented with mannose. Following culturing in the light (16 hour light/ 8 hour dark regiment), green tissues are then transferred to Reg2 medium without growth regulators and incubated for about 1-2 weeks. Plantlets are transferred to Magenta GA-7 boxes (Magenta Corp, Chicago Ill.) containing Reg3 medium and grown in the light. After about 2-3 weeks, plants are tested for the presence of the PMI genes and the chimeric Bt cry gene by PCR. Positive plants from the PCR assay are transferred to a greenhouse for further evaluation.
- Transgenic plants were evaluated for copy number (determined by Taqman analysis), protein expression level (determined by ELISA), and efficacy against insect species of interest in leaf excision bioassays. Specifically, plant tissue (leaf or silks) was excised from single copy events (V3- V4 stage) and infested with neonate larvae of a target pest, then incubated at room temperature for 5 days. Leaf disks from transgenic plants expressing each chimeric Bt protein were tested against fall annywonn ⁇ Spodoptera frugiperda, FAW), corn earworm (Helicoverpa zea, CEW) and/or European corn borer (Ostrinia nubilalis, ECB).
- the proteins of the invention were tested against China strains of lepidopteran pest populations and included pink stem borer (PSB; Sesamia inferans ), Oriantal armyworm (OAW: Mythimna separata), two-spotted armyworm (TAW; Athetis lepigone), black cutworm (BCW; Agrotis ipsilon ), common cutworm, also known as Oriental leafworm, (CCW/OLW; Spodoptera litura), cotton bollworm, also known as Old-World bollworm, (CBW/OBW; Helicoverpa armigera), striped stem borer (STB; Chilo suppressalis), yellow peach moth (YPM; Conogethes punctiferalis) and Asian com borer (ASB; Ostrinia furnacalis).
- PSB pink stem borer
- OAW Mythimna separata
- TW two-spotted armyworm
- BCW black cutworm
- BCW Agrotis ipsilon
- common cutworm also known as
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EA202192271A1 (ru) | 2021-11-15 |
US20220194994A1 (en) | 2022-06-23 |
CN113382634A (zh) | 2021-09-10 |
CL2023003116A1 (es) | 2024-03-08 |
CO2021010947A2 (es) | 2021-09-09 |
AR118136A1 (es) | 2021-09-22 |
AU2020226376A1 (en) | 2021-08-05 |
BR112021016275A2 (pt) | 2021-10-13 |
MX2021010011A (es) | 2021-09-21 |
CN113382634B (zh) | 2023-09-12 |
CL2021002203A1 (es) | 2022-03-04 |
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